DEPT OF PHYSICS
Researcher
: Bai Y |
List of Research Outputs |
Bai
Y. and Wang
Z.D., Multipartite entanglement in four-qubit cluster-class states, Physical
Review A. |
Bai
Y., Yang
D. and Wang Z.D., Multipartite
quantum correlation and entanglement in four-qubit pure states, Physical
Review A. |
Researcher
: Bao Y |
List of Research Outputs |
Bao Y.
and Shen S.Q., Electric-field-induced
resonant spin polarization in a two-dimensional electron gas, Physical
Review B. |
Researcher
: Beling CD |
Project Title: |
Centre for optical and positron characterization of defects |
Investigator(s): |
Beling CD, Fung SHY, Ling FCC |
Department: |
Physics |
Source(s) of Funding: |
Central Allocation Vote - Major Equipment Project |
Start Date: |
03/2001 |
Abstract: |
To provide the |
Project Title: |
Developing VE-PALS (variable energy positron annihilation lifetime spectroscopy) |
Investigator(s): |
Beling CD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
10/2002 |
Abstract: |
To set up a means of taking PALS spectra on solid-state samples using the HKU magnetically guided positron beam. |
Project Title: |
Developing Variable Energy Positron Annihilation Lifetime Spectroscopy |
Investigator(s): |
Beling CD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2004 |
Abstract: |
To make some positive step towards achieving a successful Positron Field Assisted Moderator (PFAM) by carrying out a series of positron annihilation studies on clean intimate metal-semiconductor junctions; to conduct PFAM investigations on the following semiconductor substrates: GaAs, GaP, GaN and SiC possibly using semi-insulating forms or material; to use the most advanced diagnostic positron spectroscopy techniques, including Coincidence Doppler Broadening Spectroscopy (CDBS) to study any adverse positron trapping at the metal-semiconductor interface. |
Project Title: |
Positron beam studies of porous silicon |
Investigator(s): |
Beling CD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
04/2007 |
Abstract: |
Introduction Porous silicon (P-Si) is a
material of significant technological interest owing to its luminescence in
the visible band (the S-band) [1]. This luminescence cannot only be
efficiently produced by laser and electrical excitation, but in addition but
can to a significant degree be tuned according to the material’s pore size
and state of oxidation [2]. From the theoretical point of view the P-Si also
has interest in that the luminescence seems to arise from quantum confinement
in the nano-sized pores that form the skeletal structure [3]. There have been
numerous studies of P-Si, but only a few of these have involved positron
annihilation [4-7]. The present proposal involves using our positron beam to
study porous silicon and the silicon dioxide – P-Si interface. The general
aim is to show that positron annihilation is useful in determining not only
pore size but also pore interconnectivity. In so doing we hope to be able to
apply for future RGC funds for a pulsed Ar ion laser for time resolved
positron annihilation studies. Study I – Positron annihilation
characteristics in porous silicon. The first study is to grow porous Si with
different degrees of porosity (0-80%) and subject them to positron beam
analysis. This would involve the standard VEDBARS (Variable Energy Doppler
Broadening of Annihilation Radiation) technique which probes the P-Si/Si
interface as a function of depth. The S (low momentum) parameter, and W (high
momentum) parameter are monitored to give information on the pore size. While
there have been some positron studies of P-Si [4-7] only one of these has
employed a positron beam. Moreover in this positron beam study it was not the
VEDBARS technique being used but the VEPALS technique [7]. In addition,
however, we would also measure the F-parameter. This technique works by
measuring the ratio of 3 gamma annihilation events to the more common 2 gamma
annihilation events. For materials with a larger density of pores (high
porosity) more ortho-positronium atoms form that have a higher probability of
3 gamma decay. If this were all that was going on, however, things would not
be particularly interesting. It turns out, however, that if pores are
interconnected ortho-positronium can move from one pore to another and thus
diffuse to the surface where it can emit into vacuum with 100% 3 gamma decay.
Thus from F-parameter measurement the interconnectivity of the skeletal P-Si
can be quantified [10]. In these studies the SiO2/P-Si interface would be a
main feature of study, since positrons are particularly effective at noting
differences in interface structure. Study II - Positron annihilation
characteristics under different oxidation conditions One feature of S-band
emission from P-Si that is poorly understood is the variation of
photoluminescence intensity under different oxidation conditions.
Incorporation of oxygen into the pores generally shifts the luminescence into
the blue, but the reason for this is still uncertain. The positron is
sensitive to chemical environment via the few percent of core electrons that
undergo annihilation. It is hoped that some relevant information may be
obtained on this variation with oxygenation using positron annihilation. The
VEDBARS technique is particularly sensitive to the presence of oxygen [8].
Study III - Positron annihilation characteristics under electro-luminescence
The feature of the S-band emission that makes P-Si technologically important
is the fact that it can be stimulated by an electrical bias applied to a
Schottky barrier made from P-Si. The beauty of this type of
electroluminescence is its simplicity and high photon yield. Emission,
moreover is over the visible spectrum. To construct such a LED, is relatively
simple. One just forms an ohmic contact on the rear of the p-Si, and a
semi-transparent Au or ITO thin film on the surface of the P-Si. A positive
potential being applied to the p-Si drives the Schottky contact into forward
bias and light emission over the visible band S-band occurs [11]. I am not
aware of any positron annihilation experiment that has been performed on an
electrically biased light emitting P-Si structure. It is thus proposed that
an experiment be carried out where we apply a bias to a Au/P-Si/pSi device
structure while carrying out positron annihilation experiments at the same
time. The electro-luminescence would be monitored by a photomultiplier tube
attached to the positron beam via an optical fiber positioned close to the
sample. Correlations would be sought between the luminescence output and the
positron annihilation parameters. This type of experiment is valuable for
confirming the most likely theory for the S-band photoluminescence, which is
the quantum confinement effect which causes the effective band gap of the Si
to increase. The normal luminescence of Si is thereby shifted from the IR
into the visible. There are competing defect [12] and amorphous Si [13]
theories that cannot be ruled out. If these defect state models have validity
then the positron may be a helpful probe since it can trap differently at
defects according to their charge states. Biasing would change the charge
state of defects. References [1] N. Koshida and H. Koyama, Appl. Phys. Lett.
60 , 347 (1992) [2] T. Wadayama, S. Yamamota, and A. Hatta, Appl. Phys. Lett
65, 1653 (1994) [3] L.T. Canham, Appl. Phys. Lett, 57, 1046 (1990) [4] Y.
Itoh, H Mukakami, A. Kinoshita, Appl. Phys. Lett 63 (1993) 2792 [5] S.
Dannefaer, C. Wiebe, D. Kerr, J. Porous Materials 7 (2000) 323 [6] C. C.
Huang, I.M. Chang, J.H. Fan, Y.F. Chen, Phys.Lett A 237 (1998) 183 [7] R.
Suzuki, T Mikado, H. Ohgaki, M. Chiwaki,; Phys. Rev. B 49 (1994) 17484 [8] M.
Doyama, Y. Suzuki, S. Ishibashi and T. Abe; P.Phys. Condens Matt (1989) S83
[9] C. Wang, J.M. Perz, F. Gaspari, M.Plumb, , Appl. Phys. Lett 62 (1993)
2676 [10] A. vanVeen, R Escobar, H. Shut, S.W.Eijt. C.V. Falub, Mat. Sci |
List of Research Outputs |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Zhang J., Cheng C.C., Ling F.C.C., Beling C.D. and Fung S.H.Y., Silicon and carbon vacancies in silicon carbide studied by coincidence Doppler broadening spectroscopy, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3676-3679. |
Researcher
: Chan VHH |
List of Research Outputs |
Chan V.H.H., Study on the cooperative phenomena of the hypothesis testing
minority game. Hong Kong, The |
Researcher
: Chau HF |
Project Title: |
Cryptanalysis of Certain Quantum Cryptographic Applications |
Investigator(s): |
Chau HF |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2004 |
Abstract: |
To study the interplay and tradeoff between efficiency, error tolerable rate and resources requirements in various quantum crytographic applications. I begin the study by first focusing on quantum key distribution. The outcome is essential in devising new quantum cryptographic protocols that suit specific applications. |
List of Research Outputs |
Chau H.F. and Man W.C., Minority game with inertial agents, International Journal of Modern Physics B. Singapore, World Scientific, 2007, 21: 4067-4070. |
Chau
H.F., Reply to "Comment on 'Quantum
string seal is insecure' ", Physical Review A. |
Ho
K.H. and Chau H.F.,
Entanglement distillation by quantum low density parity codes – A preliminary
study, Asian Conference on Quantum Information Science 2007. |
Leung C.C. and Chau H.F., Weighted accelerated growth model of complex networks, International Journal of Modern Physics B. Singapore, World Scientific, 2007, 21: 4064-4066. |
Researcher
: Chen D |
List of Research Outputs |
Chen D.,
A novel design of a variable energy positron lifetime beam. Hong Kong,
The |
Researcher
: Chen W |
List of Research Outputs |
Chen W., Yang K., Rice T.M. and Zhang F.C., Quantum oscillations in magnetic-field-induced antiferromagnetic phase of underdoped cuprates: Application to ortho-II YBa2Cu3O6.5, Europhysics Letters. EPLA, 2008, 82: 17004: 1-5. |
Zhou
Y., Chen W. and Zhang F.C., Symmetry of superconducting
states with two orbitals on a tetragonal lattice: Application to LaFeAsO1-xFx, Physical
Review B. |
Researcher
: Chen X |
List of Research Outputs |
Chen X., Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Reuther H. and Djurisic A., Influence of hydrogen peroxide treatment on Au/n-ZnO contact, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3633-3636. |
Ding L., Chen T.P., Liu Y., Ng C.Y., Yang M., Wong J.I., Zhu F.R., Tan M.C., Fung S.H.Y., Chen X. and Huang Y., Evolution of photoluminescence mechanisms of Si+-implanted SiO2 films with thermal annealing, Journal of Nanoscience and Nanotechnology. American Scientific Publishers, 2008, 8: 3555-3560. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Researcher
: Chen Y |
Project Title: |
Theoretical Studies of Electronic States in Electron-doped High Temperature Superconductors |
Investigator(s): |
Chen Y, Wang ZD, Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2004 |
Abstract: |
The electronic structure of electron-doped cuprates has attracted significant interest both experimentally and theoretically in recent years. Substantial asymmetry exists between the less studied electron-doped and intensively studied hole-doped cuprates. In order to elucidate the mechanism of high temperature superconductivity, it is fundamentally important to clarify the origin of the similarity and the differences between the electron-doped and the hole-doped cuprates. |
Project Title: |
Mixed States in High Temperature Superconductors: Scenario of Competing Orders |
Investigator(s): |
Chen Y, Zhang FC, Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
04/2005 |
Abstract: |
The electronic structure of mixed states in high temperature superconductors (HTS) has attracted significant interest both experimentally and theoretically for past many years. Many important physical phenomena arise from competing orders, including pseudogap, superconductor-insulator transition, which cannot be explained within a conventional theory. It is well established that the competition between d-wave superconductivity (DSC) and antiferromagnetic (AF) orders plays an essential role in determining the vortex state of HTS. In view of the widely used competing order scenario of the HTS in the mixed state and impurity state, together with the fact that the competing order effect has not been considered in some existing theories relevant to mixed state. In this project, we will focus on the field dependence of the vortex structure, Nernst effect and anomalous Hall effect, which are different from conventional superconductors. We believe the competition between AF and DSC may not only provide a coherent way to understand the vortex structure but also gain new insights on the above-mentioned specific features of the experimental measurements. In terms of the results to be obtained, we attempt to understand profoundly some existing experimental results as well as to suggest new experiments to test our predictions. |
Project Title: |
Unconventional Superconductivity and Novel Electronic States in Three-dimensional Pyrochlore Lattice Materials |
Investigator(s): |
Chen Y, Wang ZD, Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
07/2006 |
Abstract: |
The study of novel electronic states in condensed matter plays a vital role in the development of fundamental physics and future electronic devices. The subject of geometrical frustration in strongly correlated systems has attracted much interest recently. The geometric arrangement may frustrate a spin-ordered phase and lead to a highly degenerate disordered quantum spin-liquid state. Lifting this degeneracy makes possible the emergence of exotic quantum ground states, such as unconventional super-conductivity. The aim of this project is to undertake a systematic study of the electronic states of two typical geometrically frustrated systems related to unconventional superconductivity: recently synthesized 3D transition-metal pyrochlores, and a checkerboard lattice as its 2D analogy. Various techniques such as Gutzwiller renormalized mean field, self-consistent RPA and exact diagonalization will be employed to investigate their normal states as well as superconducting states. We believe the interplay between geometrical frustration and unconventional super-conductivity in pyrochlores may not only provide a coherent way to understand profoundly some existing experimental results but also suggest new experiments to test our predictions. |
Project Title: |
Theoretical investigations of novel electronic states in strongly correlated materials |
Investigator(s): |
Wang ZD, Zhang FC, Chen Y |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2006 |
Abstract: |
(1) A new family of recently synthesized
3D transition-metal pyrochlores exhibits exotic unconventional
superconductivity. Extensive studies are now in progress in order to
elucidate the mechanism of superconductivity. To reveal the nature of
superconductivity in the limit of strong correlation for geometrically
frustrated lattices, we will investigate theoretically the electronic
structures in the doped Mott insulator by using t-J model on two typical
geometrically frustrated systems, 3D pyrochlores and checkerboard lattice as
its 2D analogy. The renormalized mean field theory where the original t-J
model is replaced by a renormalized Hamiltonian using a Gutzwiller
approximation will be employed. It is our hope that these strongly correlated
geometrically frustrated structures may reveal unconventional
superconductivity. If they do, this may narrow the search for a new class of
high temperature superconductor material. Our preliminary results do show
some new features of pairing symmetry of superconducting order parameter and
how order parameters depend on doping density. As regards checkerboard
lattice, a novel unconventional pairing symmetry shows up. We also find a
(d+id)-wave state for 3D pyrochlores structure. Our theoretical studies may
be relevant to understand recent experimental measurements of 3D pyrochlore
structures. (2) We intend to identify the physical systems with the
appropriate microscopic models. Systematic studies using various analytical
and numerical techniques will be undertaken. For the undoped system, the
Heisenberg model will be investigated by using Schwinger boson mean field
theory. For the doped case, we may employ the so-called fluctuation-exchange
approximation (self-consistent RPA) to take into account the spin fluctuation
effect for Hubbard model on pyrochlores/checkerboard lattice from a
weak-coupling approach. Other effects such as the multi-orbital effect,
inter-site Coulomb interaction and electron phonon coupling will also be
included later. We will perform the calculations of various physical
properties, including density of states, specific heat and NMR spin-lattice
relaxation rate. We also plan to study other frustrated lattices for possible
future experiments. In terms of the results to be obtained, we expect to win
a deeper understanding of some existing experimental results and also to
suggest new experiments to test our predictions. (3) The investigations of
the field dependence of vortex structure and low-temperature Hc2 anomalies in
cuprate superconductors have attracted significant interest both
experimentally and theoretically for past many years. As the competing order
effect has not been considered in some existing theories, we start from the
mean field treatment of the well-defined t-U-V model which includes the
competition between antiferromagnetic and superconducting orders. For given
temperature and external magnetic field, we calculate the order parameter
self-consistently by solving the corresponding Bogoliubov-de Gennes equations.
Our previous studies suggest that the induction of spin/charge density wave
may show up inside and around the vortex core. With the increasing of the
external magnetic field, our preliminary calculations show that the geometry
of vortex structure can take two different forms: conventional vortex lattice
(triangular or square), or vortex stripe phases where all the order
parameters including spin density wave, charge density wave and d-wave
superconductivity exhibit stripe-like behavior. This novel vortex stripe
phases may show up at low temperature and adjacent to Hc2. Phase diagram of
temperature dependence of Hc2 will be presented as well. Our results may
provide a possible understanding of the low-temperature Hc2 anomalies. We
will study other interesting physical quantity such as superfluid density,
local density of states, spin-lattice relaxation rate and free energy in the
vortex lattice state. (4) Measurements of the Nernst effect, a transverse
thermoelectric response, reveal a surprisingly large signal above Tc in the
vortex liquid regime in high temperature superconductors. Some theoretical
works concerning the superconducting fluctuations and quasiparticle
contribution of d-density-wave order have been proposed. As noted by
Honerkamp et al, the vortex core creation energy can not be either too large
or too small. They suggested the presence of staggered flux vortices. It
seems to us that some recent NMR experiments do not support such vortices
with staggered flux in the core. We still use t-U-V model which allows the
local admixture of antiferromagnetic order in the mixed state. According to
our previous results, the presence of antiferromagnetic order inside the
vortex core gains energy, the creation energy for such antiferromagnetic vortex
core is neither large nor small. We will redo the calculations following
Honerkamp et al’s work. Our results might be consistent with the large Nernst
signal observed experimentally. Other approaches related to pseudogap phase
will be utilized to tackle this problem, combining a renormalized mean field
study of the t-J model and phase fluctuations. The latter will be treated by
a classical |
List of Research Outputs |
Chen
Y., Rice
T.M. and Zhang F.C., Atomic scale
rotational symmetry breaking in lightly doped Ca2-xNaxCuO2Cl2, Physica
C-Superconductivity and its Applications. |
Chen Y., Novel Superconducting Pairing Symmetry in Doped Quantum Magnets on the Pyrochlore Lattice, Chinese Physical Society Fall Conference 2006. 2007. |
Researcher
: Cheng CC |
List of Research Outputs |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Zhang J., Cheng C.C., Ling F.C.C., Beling C.D. and Fung S.H.Y., Silicon and carbon vacancies in silicon carbide studied by coincidence Doppler broadening spectroscopy, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3676-3679. |
Project Title: |
Properties of strange stars and their observational appearance |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2003 |
Abstract: |
To study the emissivity and transport properties of electronmagnetic waves in semi-degenerate and inhomogeneous electron gas of the strange star atmosphere; the thermal emissivity of hot quark surface in electron-positron pairs; to calculate electron-positron pairs more precisely, hopefully with accuracy of ~10% or even higher; to study electromagnetic waves produced by passing the quarks and also the propagation of electromagnetic waves through the electron atmosphere, which is semi-degenerate and inhomogeneous; to study the strange star cooling by taking into account the processes mentioned in (1)-(3). And other processes such as formation of color-flavor locked phase inside the star, chiral symmetry requirement in the boundary, will be included in the cooling calculations; to study the observational consequences of producing strange stars by accretion including how much gravitational and phase transition energy will be released through gravitational and electromagnetic waves. The possible connection between this process and [gamma]-ray bursts will be studied as well. |
Project Title: |
Time variation of fundamental physical constants in theories with extra-dimensions |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2003 |
Abstract: |
To study in a systematically manner the possibility that the time variability of some fundamental physical constants (the elementary electric charge e, the speed of light c and the gravitational constant G) is due to the presence of the extra dimensions. More specifically, to consider the fundamental constants as some physical fields in a five-dimensional space-time and to examine the effects of such a hypothesis on the four-dimensional space-time. |
Project Title: |
Transient Gamma-ray Sources: Gamma-ray Bursts and Other Related Astrophysical Phenomena |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2004 |
Abstract: |
To study (1) the evolution of the postburst fireball and their afterglows under different cases, e.g. effects of dense media, non-uniformity of media, geometry of jets (isotropic or highly collimated?) etc. We will compare the observed light curves and the time dependent multi-wave band spectra of the afterglows with model results. This information should provide very important clues to understand the origin of GRBs. (2) the inverse-Comption scattering in the internal shock can generate TeV photons, which are expected to form electron/positron pairs by collisions with inter-galactic infrared photons. Subsequent collisions between TeV pairs and cosmic microwave photons can cause delayed GeV-GRBs. The delay time scales and the spectra of delayed GeV-GRBs should be detectable for GLAST and provide vital information for the inter-galactic infrared photons as well as inter-galactic magnetic field. (3) some ideas, which we learn from GRBs, can be used to explain other transient gamma-ray phenomena, e.g. Anomalous X-Ray pulsars, Soft Gamma Repeaters and Microquasars, which exhibit some similar activities liek GBRs. For example, they all have jet-like features during the outburst states (flares) and their subsequent radiation processes could be explained in terms of internal/external shock mechanism, which are the mechanisms used to explain the radiation processes of GRBs. |
Project Title: |
High Energy Radiation from Pulsar and Pulsar Wind Nebula |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2005 |
Abstract: |
There are three basic objectives of this project: (1) To study the magnetospheric radiation of a pulsar (2) To study the radiation resulting from the interaction between a pulsar wind and its surrounding medium (3) To study the relation between some unidentified high energy radiation point sources and pulsars |
Project Title: |
High Energy Emission from the Galactic Black Hole |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
02/2006 |
Abstract: |
Non-thermal high energy radiation emission within multi-pc scale from the center region of our galaxy has been observed. In particular very intense TeV photons are observed by various VHE experimental groups in the world. We believe that these high energy photons, especially TeV photon emission, are the result of a transient activity of the massive black hole SgrA*, which resides at the Galactic center. About hundred thousands of years ago, the black hole may have experienced in active phase by capturing a main sequence star and forming an accretion disk, temporarily behaving like an active galactic nuclear resemble to the activities observed in quasars. A powerful jet, which contains plenty of high speed protons, was launched during the process. These runaway protons interact with the dense ambient medium, producing high energy radiation emission through the decay of neutral pions. We believe that the total energy deposited in this way is large enough to account for observations. We will compare the model results with the observed data. |
Project Title: |
Relativistic collapse of neutron stars: gravitational radiation and gamma-ray emission |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2006 |
Abstract: |
(1) We propose to study the physical processes associated with collapsing neutron stars and aim to predict what gravitational wave signals and gamma-ray spectrum will be emitted from these collapsing neutron star systems. We will study two specific neutron star collapse scenarios. 1. When a neutron star in a low-mass X-ray binary accretes about 0.5 solar masses from its companion; it may undergo a phase-transition induced collapse. The collapsing neutron star may or may not evolve to a black hole; a denser compact object, e.g. a quark star, can be formed. The collapse leads to oscillations and an increase in the speed of rotation. The coupling between rotation and oscillations can produce strong gravitational waves. We will also investigate (non-axisymmetric) dynamical instabilities that may develop in the collapse process, in particular the so-called bar-mode instability. (2) Our preliminary Newtonian results indicate that the gravitational-wave signal sensitively depends on the equation of state used. In this project we will extend our previous Newtonian study to a fully relativistic study. The gravitational waveforms to be determined by the proposed study may be detected by the advanced Laser Interferometric Gravitational Wave Observatory (LIGO II), and our results may be used to put constraints on the underlying equation of state. Shock waves and differential rotation, which eventually will lead to high internal energy, will be developed during the collapse. Intense gamma-rays will be emitted from electron – positron annihilations emitted from the hot surface of the quark star. Our proposed study will allow us to test if the accretion induced phase-transition is a possible mechanism of gamma-ray bursts. 2. The merging of two neutron stars in a neutron star binary will lead to a collapse with high angular momentum. (3) The final object is likely a black hole – accretion disk system. It is well-known that the gravitational wave signals emitted from binary neutron star merger sensitively depend on the angular momentum in the system. In fact, how much matter is in the accretion torus outside the event horizon also sensitively depends on the angular momentum. We will calculate the neutrino emission from this hot degenerate accretion disk; subsequent neutrino – antineutrino annihilation can produce electron/positron jet. Although we may not able to answer the baryon contamination problem, we may be able to tell if such system can provide a powerful enough jet to produce the gamma-ray bursts and subsequent afterglow. If the energy content in the accretion disk is low for a wide range of angular momentum, it will challenge the scenario of neutron star merger as a possible central power engine of short gamma-ray bursts.(4) In summary, the objectives of this project are: • To study the gravitational radiations and gamma-ray emissions from phase-transition induced collapse of neutron stars and the physical processes during the collapse • To study how the inspiral parameters of neutron star – neutron star coalescence affect the gravitational waveforms and the matter distributions in the final black hole – accretion disk system |
Project Title: |
Radiation from Pulsars |
Investigator(s): |
|
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2007 |
Abstract: |
In this project we will study two topics related to strongly magnetized and rapidly rotating neutron stars. First we will study the structure of pulsar magnetosphere, the formation of acceleration region, pair creation and radiation processes. In particular, we would like to calculate the energy dependent light curves and phase dependent energy spectrum. We believe that these two predictions provide very important information for the emission regions, acceleration mechanisms and radiation processes in the magnetosphere of pulsars. We will also study the electrodynamical properties of the accelerators in the pulsar magnetosphere. We intend to construct a three dimensional pulsar accelerator model by including realistic current flow and pair creation process inside the accelerator. Secondly for pulsars with extremely strong magnetic field or so-called magnetars or anomalous X-ray pulsars, we believe that the acceleration cannot be the rotation power. Instead magnetic energy must be the origin of these high energy photons. We will calculate the Alfven wave acceleration process in the so-called closed magnetic field lines regions and compare that with the observed non-thermal spectrum by satellite called INTEGRAL as well as other high energy astronomical instruments. |
List of Research Outputs |
Cheng K.S., Chernyshov D. and Dogel V., Diffuse gamma-ray emission from the Galactic center - a multiple energy injection model, Astronomy & Astrophysics. EDP Sciences, 2007, 473: 351-356. |
Cheng
K.S., Chernyshov D.O. and Dogiel V., High
energy radiation from the Galactic black hole Sgr A*, Nuclear Physics B
(Proc. Suppl.). |
Cheng K.S., Chernyshov D.O. and Dogiel V., High energy radiation from the direction of the galactic black hole Sgr A*, Advances in Space Research. Amsterdam, Elsevier Ltd., 2008, 42: 538-543. |
Cheng K.S., Engel R., Ma Y.Q., Pattison B., Yao Z.G. and Zhu Q.Q., Proceedings of the XIV International Symposium on Very High Energy Cosmic Ray Interactions, Weihai, China, August 15-22, 2006, Nuclear Physics B (Proc. Suppl.). Elsevier, 2008, 175+176. |
Dogiel V.A., Cheng K.S., Chernyshov D.O.,
Tatischeff V., Ko C.M. and Ip W.H., De-excitation C and O lines and the 511
keV annihilation line from Sgr A*, New Astronomy Reviews. |
Harko T.C., Choi W.F., Wong K.C. and Cheng K.S., Reheating the Universe in braneworld cosmological models with bulk-brane energy transfer, Journal of Cosmology and Astroparticle Physics. IOP Publishing Ltd and SISSA, 2008, 002: 1-24. |
Harko T.C. and Cheng K.S., Virial theorem and the dynamics of clusters of galaxies in the brane world models, Physical Review D. New York, The American Physical Society, 2007, 76: 044013: 1-14. |
Huang Y.F., Lu T. and Cheng K.S., Nonrelativistic phase in g-ray burst afterglows, Progress in Natural Science. P.R. China, 2007, 17: 1261-1270. |
Jia J., Huang Y. and Cheng K.S., A morphological approach to the pulsed emission from soft gamma repeaters, The Astrophysical Journal. The American Astronomical Society, 2008, 677: 488-494. |
Jia J., Tang A.P.S., Takata J., Chang H.K. and Cheng K.S., The phase-resolved high energy spectrum of the crab pulsar, Advances in Space Research. Amsterdam, Elsevier Ltd., 2007, 40: 1425-1431. |
Tang A.P.S., Takata J., Jia J.J. and Cheng K.S., A revisit of the phase-resolved X-ray and gamma-ray spectra of the crab pulsar, The Astrophysical Journal. The American Astronomical Society, 2008, 676: 562-572. |
Researcher
: Chernyshov D |
List of Research Outputs |
Cheng K.S., Chernyshov D. and Dogel V., Diffuse gamma-ray emission from the Galactic center - a multiple energy injection model, Astronomy & Astrophysics. EDP Sciences, 2007, 473: 351-356. |
Researcher
: Cheung CK |
List of Research Outputs |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Researcher
: Cheung KY |
List of Research Outputs |
Hsu
Y.F., Djurisic A., Tam K.H., Cheung K.Y. and Chan W.K., Fabrication and
characterization of ZnO/TiOx nanoscale heterojunctions, Journal
of Crystal Growth. |
Wong W.Y., Wang X.Z., He Z., Djurisic A., Yip C.T., Cheung K.Y., Wang H., Mak S.K. and Chan W.K., Metallated conjugated polymers as a new avenue towards high-efficiency polymer solar cells, Nature Materials. Nature Publishing Group, 2007, 6: 521-527. |
Wong W.Y., Wang X.Z., He Z., Chan K.K., Djurisic A., Cheung K.Y., Yip C.T., Ng M.C.A., Xi Y., Mak S.K. and Chan W.K., Tuning the absorption, charge transport properties, and solar cell efficiency with the number of thienyl rings in platinum-containing poly(aryleneethynylene)s, Journal of the American Chemical Society. American Chemical Society, 2007, 129: 14372-14380. |
Yip C.T., Cheung K.Y., Djurisic A. and Chan W.K., Titania nanotube array based photovoltaic cells, Proceedings of SPIE. 2007, 6656: 665616: 1-11. |
Researcher
: Choi WF |
List of Research Outputs |
Choi W.F., Reheating the universe in brane world cosmological models.
Hong Kong, The |
Harko T.C., Choi W.F., Wong K.C. and Cheng K.S., Reheating the Universe in braneworld cosmological models with bulk-brane energy transfer, Journal of Cosmology and Astroparticle Physics. IOP Publishing Ltd and SISSA, 2008, 002: 1-24. |
Researcher
: Cui X |
Project Title: |
The study on the conductance fluctuation of Carbon Nanotubes |
Investigator(s): |
Cui X |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2005 |
Abstract: |
The objective of this proposed program is to experimentally study the nature of the conductance fluctuation observed on individual carbon nanotubes (CNT), which are a quasi one dimensional wire and are a promising candidate for nano-electronic materials. |
Project Title: |
Characterizing Carbon nanotube structures by Photo-Reflection |
Investigator(s): |
Cui X |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2006 |
Abstract: |
The objective of this proposed program is
to explore non-destructive techniques to identify individual carbon nanotube
structures with photo-reflection experiments. Carbon nanotubes (CNTs have
emerged as ideal materials for low dimensional physics studies and promising
building blocks for nano electronics. They can be considered as carbon
cylinders that are about a nanometer in diameter and a few hundred microns in
length. They comprise a family of hundreds of structures, identified by
distinct sets of two integers (n,m) which reflect various chirality and
diameters, each having different electronic structures: these of mod(n–m,3)=0
are metallic, while the rest are semiconducting. The present weakness of the
CNT field, however, is the fact that no one has yet found a synthesis of just
one specific CNT structure (specific diameter and chirality). The structure
of individual carbon nanotubes in such carbon nanotube devices as CNT field
effect transistors and CNT field emitters are kind of stochastic. Namely, we
have great difficulty in relating series of data on individual CNTs to
specific material structures. Therefore the structure characterizing is
important to understand the physics inside. Transmission Electron Microscopy
(TEM), Scanning Electron Microscopy (STM), Resonant Raman scattering, and
photoluminescence have been exploited in structure characterization. Among
them, TEM and STM produce precise physical images of individual CNT at
Angstrom resolution. But they cannot in situ study the CNTs and sample
processing and ultra high vacuum (UHV) environments are necessary. Besides
these characterization techniques are destructive for CNTs devices.
Resonanant raman scattering probes two distinct phonon modes on CNTs: the
radial breathing mode (RBM) in a range of 100 to |
Project Title: |
An optical study of electronic structures of carbon nanotubes |
Investigator(s): |
Cui X |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
08/2006 |
Abstract: |
(1) To build a comprehensive, nondestructive optical measurement system in order to accomplish micro-Raman characterization, photo induced conductance, photoluminescence and electroluminescence spectroscopy at the single carbon nanotube level. (2) To study the excitonic effect, exciton binding strength, electron-photon coupling, and structure dependence of luminescence spectrum on identified single carbon nanotubes by applying micro-Raman characterization, photo induced conductance, photoluminescence and electroluminescence spectroscopy to single carbon nanotubes.(3) The study will elucidate the optical and electric properties of single nanotubes, and will benefit not only carbon nanotube research but also the entire field of the low dimensional physical sciences and nanotechnology. |
Project Title: |
Detection of pure spin currents |
Investigator(s): |
Cui X |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2007 |
Abstract: |
The project aims to explore an
experimental technique to detect the pure spin current, which is one of the
key components to realization of spintronics. Electrons have a quantum state
of spin as well as electric charges. Spintronics or spin electronics is known
as a emergent technology which exploit the quantam state of electron spin in
addition to making use of electron charges. In order to make a spintronic
device, the primary requirement is to have a system that can generate a
current of spin polarized electrons, and a system that is sensitive to the
spin polarization of the electrons. A current of spin polarized electrons,
know as spin current refers to the spin aligned electron flowing: for
example, spin ‘up’ electron moving towards the left and spin ‘down’ electrons
moving opposite. The generation of spin current can be realized by spin
electron injection from ferromagnetic materials, 1 by external magnetic
field, 2 3 4 and by spin-orbital interaction. 5 6 7. The electric charge
flowing is not necessary as a result of opposite moving electric current. The
spin current without carrying net electric charge flow is generally referred
to pure spin current. The detection of pure spin current has been
challenging. A few of achievements to spin current detection were reported
recently. One of them is to detect spin current by spin Hall effect via two
independent experiments: Accumulation of “spin up” and “spin down” electrons
at opposite edges of the conducting channel of GaAs in bulk form and in two
dimensional a electron gas (2DEG) system under a DC bias was observed with
Kerr rotation microscopy by Awschalom group.8 , and with electroluminescence
by Cambridge group9. A direct measurement of the spinned electron flow has
been generated with optical inject and been observed with spatial resolved
photoluminescence 7 10. Although the progress is impressive, one fundamental
obstacle to spintronics devices exists. The present techniques of spin
current detection all are based on the complicated optical spectroscopy. For
application oriented research purpose, electronic signal raised from spin
current is of great interest. The current efforts however do not discover any
electric phenomena related to pure spin current yet. In this application, we
propose a novel experiment to detect pure spin currents in 2DEG. The electric
phenomena related to pure spin currents are focused. The proposed study will
try to explore the physics in spin current in 2DEG system and will aim to a
new solution to spin current based devices. |
List of Research Outputs |
Zeng H., Yang C., Dai J. and Cui X., Light-induced incandescence of single-walled carbon nanotubes, The Journal of Physical Chemistry C. American Chemical Society, 2008, 112: 4172-4175. |
Zeng H., Jiao L.Y., Xian X.J., Qin X.C., Liu Z.F. and Cui X., Reflectance spectra of individual single-walled carbon nanotubes, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 045708: 1-4. |
Researcher
: Dai J |
List of Research Outputs |
Zeng H., Yang C., Dai J. and Cui X., Light-induced incandescence of single-walled carbon nanotubes, The Journal of Physical Chemistry C. American Chemical Society, 2008, 112: 4172-4175. |
Researcher
: Dai X |
Project Title: |
The studies on the dynamical mean field theory and its application in the first principle calculation of the strongly correlated materials |
Investigator(s): |
Dai X, Zhang FC, Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2005 |
Abstract: |
1) To develop several fast impurity solvers which can be used in the LDA+DMFT calculation for the Mott insulators, where the effective quantum impurity model is close to the atomic limit. 2) Apply the LDA+DMFT method to do the first principle calculation for the typical anti-ferromagnetic materials, such as $MnF_2$ and $MnO$. 3) To develop a impurity solver in the strong local interaction but with non integer particle filling. |
Project Title: |
The optical response of the semiconductor quatum well structure carrying non-zero spin current |
Investigator(s): |
Dai X |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2006 |
Abstract: |
Recently the spintronics, whose main task
is to study the transport and manipulation of the spin degree of freedom in
solids, become a very hot field of the condensed matter physics. One of the
big problem of the spintronics is how to generate and detect spin current,
which can transport spin signals from one place to another. Unlike the charge
current, which is very easy to detect, the pure spin current is very hard to
detect. About two years ago, the study of spin Hall effect (SHE), in which an
electric field induces a transverse spin current, has recently evolved into a
subject of intense research. The intrinsic SHE was proposed by Murakami et
al. in p-type semiconductor of a Luttinger Hamiltonian and by Sinova in
2-dimensional (2D) electron systems with Rashba spin-orbit coupling. Their
works have generated a lot of theoretical activities. Current theoretical
understanding is that the intrinsic SHE does not survive in the diffusive
transport in the thermodynamic limit for the 2D Rashba electron system in the
absence of strong magnetic fields but the effect appears to be robust in the
2D hole gases p-doped bulk semiconductors and the modified Rashba coupling
case. The earlier theoretical work on the extrinsic SHE is associated with
the impurity scattering, such as the skew scattering and the side jump
processes. On the experimental side, there have been two groups reporting the
observation of SHE. Kato et.al. used Kerr rotation microscopy to detect and
image electrically induced electron-spin polarization near the edge of a
n-type semiconductor channel. The effect was suggested to be extrinsic based
on the weak dependence on crystal orientation for the strained samples. Very
recently, Sih et al. have reported spatial imaging of the SHE and
current-induced polarization in 2D electron gases. Wunderlich et al. observed
the SHE in 2D hole system with spin-orbit coupling, and interpreted the
effect to be intrinsic. Therefore it will be very important if we can propose
a new way to measure the spin current by out theoretical study. Since both of
the two experimental on the possible spin Hall effects are done by the
optical measurement. The Kerr effect was used in Kato's experiment and photo
luminescence was used in Wunderlich's experiment. On the other hand, the
optical properties of the semiconductors with strong spin-orbital coupling
itself is a very interesting problem which has been studies extensively in
the past twenty years, because it shed light on how to manipulate spin by the
optical way. Based on the above research background, we plan to carry out the
theoretical studies on the optical properties of the semiconductor quantum
wells with the strong spin-orbital coupling. In the study, we will focus on
two very fundamental problems. One is that is there any new physical
phenomena in the optical absorption or emission which is induced by the
spin-orbital coupling? Since we know that the spin Hall effect in the 2
dimensional electron (hole) gas is induced by the non-trivial |
Project Title: |
The study on the metal insulator transition in the multi-band system using the dynamical mean field theory |
Investigator(s): |
Dai X, Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2006 |
Abstract: |
(1) We plan to develop very efficient
parallised codes of the exact diagonization (ED) which will be used as a
impurity solver for dynamical mean field theory (DMFT). The exact
diagonization is a quite reliable impurity solver for DMFT at zero
temperature. It has been used commonly in the Mott transition problem in
multi-band Hubbard model. The key issue of the ED solver is to use as many
sites as possible to simulate the heat bath. As we learnt from the
literature, we expect to get the satisfactory results using three or four
sites for the heat bath. We will develop very efficient parallised ED codes
for the powerful pc cluster in HKU named hpcpower. (2) With the ED impurity
solver developed above, we will study the phase diagram of the three-band
Hubbard model using DMFT. We will study how the phase diagram will change
with the Hund's rule coupling and the crystal field splitting. As we will
discuss in detail late, a new type of orbital selective Mott transition which
is driven by crystal field will be studied in detail. Our research work will
shed light on many interesting phenomena in the transition metal oxides with
partially filled t |
List of Research Outputs |
Dai
X. and Zhang
F.C., Light-induced Hall effect in semiconductors with spin-orbit
coupling, Physical Review B. |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Gu
Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Zhuang
H., Ma M., Dai X. and Zhang F.C., Mott insulator-superfluid
transitions in a two-band model at finite temperature and possible
application to supersolid 4He, Physical Review B. |
Researcher
: Dai X |
List of Research Outputs |
Dai
X. and Zhang
F.C., Light-induced Hall effect in semiconductors with spin-orbit
coupling, Physical Review B. |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials Research
Conference, June 9-12, 2008. |
Gu
Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Zhuang
H., Ma M., Dai X. and Zhang F.C., Mott insulator-superfluid
transitions in a two-band model at finite temperature and possible
application to supersolid 4He, Physical Review B. |
Researcher
: Dai X |
List of Research Outputs |
Dai
X. and Zhang
F.C., Light-induced Hall effect in semiconductors with spin-orbit
coupling, Physical Review B. |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Gu
Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Zhuang
H., Ma M., Dai X. and Zhang F.C., Mott insulator-superfluid
transitions in a two-band model at finite temperature and possible
application to supersolid 4He, Physical Review B. |
Researcher
: Deng X |
List of Research Outputs |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Researcher
: Djurisic A |
Project Title: |
Structural, electrical, and optical properties of organic/inorganic nanocomposites for optoelectronic applications |
Investigator(s): |
Djurisic A, Chan WK |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2004 |
Abstract: |
To study : (1) the fabrication and/or surface modifications of inorganic nanostructures; (2) the fabrication of nanocomposite films containing one or more types of nanostructures; (3) the study of structural, electrical, and optical properties of nanocomposite films; (3) the application of nanocomposite films to organic light emitting diodes and organic solar cells. |
Project Title: |
Optical properties of ZnO nanostructures |
Investigator(s): |
Djurisic A, Chan WK |
Department: |
Physics |
Source(s) of Funding: |
France/Hong Kong Joint Research Scheme - Travel Grants |
Start Date: |
01/2006 |
Abstract: |
1) Fabrication and charaterization of the optical properties of ZnO nanostructures; 2) Investigation of the effect of surface functionalization on the optical properties |
Project Title: |
Nanomaterial homojunctions and heterostructures for photovoltaic applications |
Investigator(s): |
Djurisic A |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
02/2007 |
Abstract: |
In recent years, nanomaterials have
attracted lots of attention due to their great potential for applications in
various optoelectronic devices with improved performance. In particular,
one-dimensional nanostructures are of great interest for solar cell
applications [1,2]. The important advantage of one dimensional nanostructures
is improved charge transport through a single crystalline nanowire compared
to a layer consisting of nanoparticles [1]. For example, mobility in single
crystal rutile TiO2 ( |
List of Research Outputs |
Brauer G., Anwand W., Skorupa W., Beynik I., Teichert C., Hsu Y.F., Xi Y., Zhu C., Ling F.C.C. and Djurisic A., Non-destructive characterization of vertical ZnO nanorod arrays by slow positron implantation spectroscopy, atomic force microscopy, and photoluminescence, 9th International Workshop on Positron and Positronium Chemistry, Wuhan University, China, May 11-15, 2008. 46. |
Chan
W.K., Cheng K.W., Mak S.K., Tam W.Y. and Djurisic A., Metal containing polymers
with wide absorption range for photovoltaic applications, Polymer
Preprints. |
Chen X., Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Reuther H. and Djurisic A., Influence of hydrogen peroxide treatment on Au/n-ZnO contact, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3633-3636. |
Cheng K.W., Mak S.K., Chan W.K., Ng M.C.A. and Djurisic A., Synthesis of conjugated polymers with pendant ruthenium terpyridine trithiocyanato complexes and their applications in heterojunction photovoltaic cells, Journal of Polymer Science: Part A: Polymer Chemistry. Wiley Periodicals, Inc., 2008, 46: 1305-1317. |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Djurisic
A., Tam
K.H., Hsu Y.F., Zhang S., Xie M.H. and Chan W.K., GaN nanowires--influence of
the starting material on nanowire growth, Thin Solid Films. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C.,
Brauer G., Anwand W. and Skorupa W., Defect study in zinc oxide related
structures – Electrical and optical characterization, MRS International
Materials Research Conference, June 9-12, 2008. |
Hsu Y.F., Xi Y., Yip C.T., Djurisic A. and Chan W.K., Dye-sensitized solar cells using ZnO tetrapods, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 083114: 1-4. |
Hsu
Y.F., Djurisic A., Tam K.H., Cheung K.Y. and Chan W.K., Fabrication and
characterization of ZnO/TiOx nanoscale heterojunctions, Journal
of Crystal Growth. |
Hsu Y.F., Xi Y., Djurisic A., Chan W.K., Yip C.T. and Tam K.H., Hydrothermal growth of periodic ZnO nanorod arrays using polystyrene sphere templates, Proceedings of SPIE. 2007, 6639: 66390I: 1-8. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Hsu Y.F., Xi Y., Djurisic A. and Chan W.K., ZnO nanorods for solar cells: Hydrothermal growth versus vapor deposition, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 133507: 1-3. |
Leung Y.H., Djurisic A., Liu Z., Li D., Xie M.H. and Chan W.K., Defect photoluminescence of ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 353-357. |
Li D., Liu Z., Leung Y.H., Djurisic A., Xie M.H. and Chan W.K., Transition metal-doped ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 616-619. |
Lu A.W., Chan J., Ng M.C.A., Djurisic A. and Rakic A.D., Multi-objective optimization of microcavity OLEDs with DBR mirror, Proceedings of SPIE. 2007, 6470: 647014: 1-9. |
Luo Z., Gao J., Djurisic A., Yip C.T. and Zhang G.B., Photoelectric response of Schottky barrier in La0.7Ca0.3MnO3/Nb:SrTiO3 heterojunctions, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 182501: 1-3. |
Ng
M.C.A., Djurisic A., Tam K.H., Cheng K.W., Chan W.K., Tam H.L., Cheah K.W., Lu
A.W., Chan J. and Rakić A.D.,
3,4,9,10-Perylenetetracarboxylicdiimide as an interlayer for ultraviolet
organic light emitting diodes, Optics Communications. |
Ng
M.C.A., Djurisic A. and Chan W.K., Organic luminescent nanowires
– fabrication and characterization, SPIE Photonics Asia, |
Ng M.C.A., Djurisic A., Tam K.H., Kwok W.M., Chan W.K., Tam W.Y., Phillips D.L. and Cheah K.W., Organic nanoclusters on inorganic nanostructures for tailoring the emission properties of organic materials, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 566-574. |
Pandey A.K., Nunzi J.M., Wang H., Oey C.C., Djurisic A., Xie M.H., Leung Y.H., Man K.K.Y. and Chan W.K., Reverse biased annealing:
Effective post treatment tool for polymer/nano-composite solar cells, Organic
Electronics. |
Tong
W.Y., Li Z.X., Djurisic A.,
Chan W.K. and Yu S.F., Field emission
from copper phthalocyanine and copper hexadecafluorophthalocyanine nanowires,
Materials Letters. |
Wong W.Y., Wang X.Z., He Z., Djurisic A., Yip C.T., Cheung K.Y., Wang H., Mak S.K. and Chan W.K., Metallated conjugated polymers as a new avenue towards high-efficiency polymer solar cells, Nature Materials. Nature Publishing Group, 2007, 6: 521-527. |
Wong W.Y., Wang X.Z., He Z., Chan K.K., Djurisic A., Cheung K.Y., Yip C.T., Ng M.C.A., Xi Y., Mak S.K. and Chan W.K., Tuning the absorption, charge transport properties, and solar cell efficiency with the number of thienyl rings in platinum-containing poly(aryleneethynylene)s, Journal of the American Chemical Society. American Chemical Society, 2007, 129: 14372-14380. |
Xi Y., Li D., Djurisic A., Xie M.H., Man K.K.Y. and Chan W.K., Hydrothermal synthesis vs electrodeposition for high specific capacitance nanostructured NiO films, Electrochemical and Solid-State Letters. The Electrochemical Society, 2008, 11: D56-D59. |
Xi Y., Hsu Y.F., Djurisic A., Ng M.C.A., Chan W.K., Tam H.L. and Cheah K.W., NiO/ZnO light emitting diodes by solution-based growth, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 113505: 1-3. |
Yip C.T., Cheung K.Y., Djurisic A. and Chan W.K., Titania nanotube array based photovoltaic cells, Proceedings of SPIE. 2007, 6656: 665616: 1-11. |
Zhang S., Djurisic A., Hsu Y.F., Ng M.C.A. and Xie M.H., Influence of different insulating polymers on the performance of ZnO nanorod based LEDs, Proceedings of SPIE. 2008, 6988: 69881O: 1-8. |
Zhang
S., Tam K.H., Djurisic A. and Hsu Y.F., The influence of source
material composition on morphology and optical properties of ZnO
nanostructures, Journal of Nanoscience and Nanotechnology. |
Researcher
: Dogel V |
List of Research Outputs |
Cheng K.S., Chernyshov D. and Dogel V., Diffuse gamma-ray emission from the Galactic center - a multiple energy injection model, Astronomy & Astrophysics. EDP Sciences, 2007, 473: 351-356. |
Researcher
: Fu E |
List of Research Outputs |
Gao J., Fu E. and Wu X.S., A bilayer buffer using 214T Eu2CuO4 and cubic YSZ for growing YBa2Cu3Oy thin films on Si, Surface Review and Letters. World Scientific Pub., 2007, 14: 773-777. |
Gao J., Fu E., Luo Z., Wu X. and Yang J., Superconductivity and crystallinity in epitaxial thin films of YBa2Cu3Oy grown on Eu2CuO4/YSZ double buffered silicon, International Journal of Modern Physics B. World Scientific Pub., 2007, 21: 3263-3265. |
Gao J., Fu E., Luo Z., Wang Z. and Yu D.P., TEM study of the microstructure and interfaces in YBa2Cu3Oy thin films grown on silicon with a Eu2CuO4/Y-ZrO2 bi-layer buffer, Surface Review and Letters. World Scientific Pub., 2007, 14: 751-754. |
Researcher
: Fung PCW |
Project Title: |
Development of a novel natural antioxidant with strong anti-aging and protective properties for skin |
Investigator(s): |
Fung PCW, Shen J |
Department: |
Medicine |
Source(s) of Funding: |
Seed Funding Programme for Applied Research |
Start Date: |
07/2002 |
Abstract: |
To develop a novel antioxidants from herbal products which can scavenge superoxide, hydroxyl and lipid peroxide free radicals in skin. |
Project Title: |
Roles of plasma membrane cholesterol homeostasis in regulating neuronal oxidative damage of ischemic stroke |
Investigator(s): |
Fung PCW, Shen J |
Department: |
Medicine |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2003 |
Abstract: |
To understand the roles of plasma membrane cholesterol homeostasis in protecting neuronal cells from oxidative damage during ischemic stroke. |
Project Title: |
High level brain activity studies and applications |
Investigator(s): |
Fung PCW |
Department: |
Medicine |
Source(s) of Funding: |
NSFC/RGC Joint Research Scheme |
Start Date: |
01/2004 |
Abstract: |
To better understand and utilize the functioning of the brain. |
Researcher
: Fung SHY |
List of Research Outputs |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Ding L., Chen T.P., Liu Y., Ng C.Y., Yang M., Wong J.I., Zhu F.R., Tan M.C., Fung S.H.Y., Chen X. and Huang Y., Evolution of photoluminescence mechanisms of Si+-implanted SiO2 films with thermal annealing, Journal of Nanoscience and Nanotechnology. American Scientific Publishers, 2008, 8: 3555-3560. |
Ding L., Chen T.P., Liu Y., Yang M., Wong J.I., Liu K.Y., Zhu F.R. and Fung S.H.Y., The influence of the implantation dose and energy on the electroluminescence of Si+-implanted amorphous SiO2 thin films, Nanotechnology. Bristol, IOP Publishing Limited, 2007, 18: 455306: 1-6. |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Liu Z., Chen T.P., Liu Y., Ding L., Yang M., Wong J.I., Cen Z.H., Li Y.B., Zhang S. and Fung S.H.Y., Light-induced instability in current conduction of aluminum nitride thin films embedded with Al nanocrystals, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 013102: 1-3. |
Zhang J., Cheng C.C., Ling F.C.C., Beling C.D. and Fung S.H.Y., Silicon and carbon vacancies in silicon carbide studied by coincidence Doppler broadening spectroscopy, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3676-3679. |
Researcher
: Gao J |
Project Title: |
Preparation of epitaxial YBa2Cu3Oy thin films on silicon with a double buffer of Eu2CuO4/YSZ |
Investigator(s): |
Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2002 |
Abstract: |
The project proposes to reveal the feasibility of applying a double buffer EuCuO(ECO)/YSZ to improve the growth of YBCO on Si. The synthesis process, resultant structural properties and their relation to superconductivity of YBCO films will be investigated. In addition, their crystalline and superconductivity, as well as the interfaces will be systematically studied. |
Project Title: |
Normal and abnormal giant electroresistance induced by currents in epitaxial thin films of mixed-valent manganite oxides |
Investigator(s): |
Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To systematically investigate the current induced giant ER effect in wide range of epitaxial thin films of mixed-valent manganite oxides; to study the nature of the novel metastable state introduced subsequently by applying a large current, i.e. the abnormal ER effect; try to understand the physical mechanism behind these experimental observations. |
Project Title: |
Magnetically tunable heterojunctions constructed with manganite perovskites |
Investigator(s): |
Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2006 |
Abstract: |
The main objective of this project is to explore the feasibility for developing functional p-n heterojunctions from manganite perovskites, which could be magnetically tunable. As the influence of the giant MR and ER on behavior of these heterojunctions has not been well understood, our study would be very likely to emerge interesting results and may exhibit unexpected new properties or phenomena |
Project Title: |
Opto-electric response in heteroepitaxial junctions composed of transition metal perovskites |
Investigator(s): |
Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2007 |
Abstract: |
(1) To study the opto-electronic response of heteroepitaxial p-n junctions of perovskite manganites. Heteroepitaxial junctions with a well-defined interface are essential for the proposed study. A good control over the crystal perfection, epitaxial orientation, as well as a clear interface at atomic level in multiplayer structures will be pursued. The photo-electronic interaction and influence of optical irradiation on the I-V characteristics and transport will be studied with different wavelengths and light intensity. This research aims at obtaining dynamic light control of electrical transport in various hetero-structures. (2) To investigate the electronic states and boundary resistance under an optical or e-field excitation. This study can explore how the applied optical or electric field affects the properties of the material in hoping to shed light on the physical mechanisms, which are difficult to understand using conventional research scheme. Our recent study has shown that a current with a high density can induce a giant ER in the ABO3 films. With the incorporation of optical excitation into the experiment, free carriers can be excited in the materials and, likely, the MI transition will be influenced. Our research will be focused on the dynamical process of the way that electrons are excited and combined with holes and how the photon-generated electrons interact with Mn ions. The impurity states will also be investigated. (3) To explore the effect of the strain on the electroresistance (ER) and photocarrier injection. Films with different thicknesses will be made to study the strain effect. It has been known that lattice strain can greatly affect the Curie temperature and the phase transition. Recently we also found that the strain can greatly influence the ER effect induced by currents. It could be associated with the multi-phases coexistence in R1-xAxMnO3, though the physical mechanism has not fully understood yet. The optical excitation is likely to influence the MI transition and introduce some metastable states as well. Thus the effect of lattice strain on the optical process is of great interest. |
Project Title: |
Metal-insulator phase transitions and transport in tetra-valence ion doped perovskite manganites |
Investigator(s): |
Gao J |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
07/2007 |
Abstract: |
Colossal magnetoresistive (CMR)
perovskite manganites have been extensively investigated for their potential
in technologic applications and interest physical phenomena. They exhibit a
rich variety of electronic and magnetic properties, such as metal-insulator
transition, ferromagnetism and charge/orbital ordering. Recently, the
fabrication and study of artificially designed heteroepitaxial structures and
new devices on the basis of doped manganite oxides has been frequently
reported. On the other hand, studies on the metal-insulator transitions taken
place in these oxides device have seldom been made. Generally, CMR manganites
with formula La1-xAxMnO3 is known as a hole-type material when the doping ion
A is a divalent cation such as Ba, Ca, Sr, etc. In the parent compound
LaMnO3, substitution of partial Mn3+ with electric configuration of t |
List of Research Outputs |
Cai H.L., Zhang Y.M., Wu X.S., Lu X.M. and Gao J., Substrate effects on surface morphology in (La2/3-xYx) (Ca1/3-y Sry) MnO3 films, Surface Review and Letters. World Scientific Pub., 2007, 14: 845-848. |
Cai H.L., Ren S.L., Wang Z.H., Wu X.S. and Gao J., The resistivity induced by the variation of Co ion's spin configuration in La2/3Ca1/3Mn1-xCoxO3, International Journal of Modern Physics B. World Scientific Pub., 2007, 21: 3398-3400. |
Gao J., Fu E. and Wu X.S., A bilayer buffer using 214T Eu2CuO4 and cubic YSZ for growing YBa2Cu3Oy thin films on Si, Surface Review and Letters. World Scientific Pub., 2007, 14: 773-777. |
Gao J. and Wang L., Current-induced electroresistance in tetravalent cation-doped La0.9Hf0.1MnO3 epitaxial thin films, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 97-99. |
Gao J., Au C.T., Pai W.W. and Tang T.B., Guest chief editor for special issue of Surface Review and Letters, proceedings of Asian Pacific Conference on Surface Science & Engineering, 19-21 December, 2006, Hong Kong., 2007. |
Gao J., Guest editor, International Journal of Modern Physics B. 2007, Vol. 21, 18-19. |
Gao
J., Magnetroresistance (MR) and
electroresistance (ER) in epitaixal thin films of La1-xRxMnO3 (R=Ca, Ba, Sr,
and Hf), International Workshop for Strong Magnetic Fields, Dec. 21-25,
2007, |
Gao J. and Hu F., Rectifying behavior and magnetic tunability in heterojunctions composed of p-La0.9Ba0.1MnO3/n-Si, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 100-103. |
Gao J., Fu E., Luo Z., Wu X. and Yang J., Superconductivity and crystallinity in epitaxial thin films of YBa2Cu3Oy grown on Eu2CuO4/YSZ double buffered silicon, International Journal of Modern Physics B. World Scientific Pub., 2007, 21: 3263-3265. |
Gao J., Fu E., Luo Z., Wang Z. and Yu D.P., TEM study of the microstructure and interfaces in YBa2Cu3Oy thin films grown on silicon with a Eu2CuO4/Y-ZrO2 bi-layer buffer, Surface Review and Letters. World Scientific Pub., 2007, 14: 751-754. |
Gao J. and Hu F., The response of transport properties to static electric field in La0.7Ce0.3MnO3 epitaxial thin films, IEEE Transactions on Magnetics. IEEE, 2007, 43: 3058-3060. |
Hao J.H. and Gao J., Integration of laser MBE grown oxide thin films of SrTiO3 with YBa2Cu3Oy for tunable applications, Surface Review and Letters. World Scientific Pub., 2007, 14: 833-836. |
Hu F., Gao J., Luo Z., Wang L., Sun J.R. and Shen B.G., Abnormal electroresistance effect induced by electric currents in La0.9Ba0.1MnO3 thin films, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 113-116. |
Hu F.,
Shen B.G., Sun J.R., Wang G.J. and Gao
J., Magnetic properties and magnetocaloric effect around phase
boundary in La(FexAl1-x)13 compounds, Journal of Applied Physics. New York, American
Institute of Physics, 2007, 101: |
Hu F.X., Sun J.R., Shen B.G., Rong C.B.
and Gao J., Epitaxial growth
of colossal magnetoresistive films onto Si(100), Journal of Applied
Physics. New York, American Institute of Physics, 2008, 103: |
Hu F.X., Sun J.R., Shen B.G., Rong C.B.
and Gao J., Switching behavior
of La1-xCaxMnO3 thin films grown on SrTiO3 substrates, Journal
of Applied Physics. New York, American Institute of Physics, 2008, 103: |
Luo Z., Gao J., Djurisic A., Yip C.T. and Zhang G.B., Photoelectric response of Schottky barrier in La0.7Ca0.3MnO3/Nb:SrTiO3 heterojunctions, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 182501: 1-3. |
Luo Z. and Gao J., Rectifying characteristics and magnetoresistance in La0.9Sr0.1MnO3/Nb-doped SrTiO3 heterojunctions, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 109-112. |
Luo Z., Hao J.H. and Gao J., Rectifying characteristics and transport behavior of SrTiO3-d(110)/p-Si(100) heterojunctions, Applied Physics Letters. New York, American Institute of Physics, 2007, 91: 062105: 1-3. |
Luo Z. and Gao J., The structure and transport properties of La0.9Sr0.1MnO3, Surface Review and Letters. World Scientific Pub., 2007, 14: 813-816. |
Markovich V., Jung G., Yuzhelevskii Y.,
Gorodetsky G., Hu F. and Gao J., Metastable resistivity of La0.8Ca0.2MnO3 manganite
thin films, Physical Review B. |
Wang
L. and Gao J., Strain
effect on the transport properties in low-doped La0.9Hf0.1MnO3 epitaxial
films, Journal of Applied Physics. New York, American Institute of
Physics, 2008, 103: |
Wang
Z., Yu G.L., Nie Y., Wu Z.F., Qiu L., Luo Z. and Gao J., Effect of applied magnetic
field on the rectifying characteristics in self-doped La0.9MnO3/0.8 wt
%Nb-SrTiO3 heteroepitaxial junctions, Journal of Applied Physics. New
York, American Institute of Physics, 2008, 103: |
Wu Z.F., Wang Z., Bai Z., Li P.J., Tian H., Qiu
L., Wu X.S., Chen Y.W. and Gao J.,
Oxygenation-induced two peaks in the self-doped La0.9MnO3+d
compounds, Journal of Magnetism and Magnetic Materials. |
Xing J.H., Qian B., Feng J.F., Jiang X.F., Wu X.S., Zhang Y.M., Ji Q. and Gao J., Nano-ordered palpus-like crystals in La1/3Ca2/3MnO3 films, Surface Review and Letters. World Scientific Pub., 2007, 14: 769-772. |
Xu S., Wu X.S., Ma G.B., Wang Z.H. and Gao J., Effects of Gd2O3 addition
in YBa2Cu3O7-don the critical current density, Journal of Applied Physics.
New York, American Institute of Physics, 2008, 103: |
Zhai Z.Y., Li X.Z., Zhi S.S., Wu X.S., Hao J.H. and Gao J., Dislocation density in SrTiO3 film grown on DyScO3 by pulse laser ablation, Surface Review and Letters. World Scientific Pub., 2007, 14: 779-782. |
Zhang H.D., Li M., An Y.K., |
Zhang H.D., An Y.K., |
Zhang Y.M., Wu X., Ji Q., Weng Y.Y., Gao J., Tan W.S. and Zhai Y.,
Grain-boundary effects on magnetotransport properties in La2/3Ca1/3MnO3/YBa1.8Eu0.2Cu3O7
multilayers, Journal of Applied Physics. New York, American Institute
of Physics, 2008, 103: |
Zhang Y.M., Jiang Z.S., Wu X.S., Tan W.S. and Gao J., Surface morphology and transport property in La2/3Ca1/3MnO3, YBa1.8Eu0.2Cu3O7 periodic films, Surface Review and Letters. World Scientific Pub., 2007, 14: 841-844. |
Researcher
: Gong C |
List of Research Outputs |
Wang
Y., Gong C. and Wang Z.D., Tuning kinetic magnetism of
strongly correlated electrons via a staggered flux, Physical Review
Letters. |
Researcher
: Gu Q |
List of Research Outputs |
Chen X., Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Reuther H. and Djurisic A., Influence of hydrogen peroxide treatment on Au/n-ZnO contact, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3633-3636. |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Gu Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Gu Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Gu Q., Ling F.C.C., Brauer G., Anwand W. and
Skorupa W., Electrical characterizations of deep levels in N+-implanted ZnO
single crystal, Best Poster Award – Symposium D: Semiconductor Photonics:
Nano-Structured Materials and Devices, 4th International Conference on
Materials for Advanced Technologies (ICMAT 2007), Singapore, Materials
Research Society Singapore and Materials Research Society US, July 1-6, 2007.
|
Gu Q., Ling F.C.C., Brauer G., Anwand W. and
Skorupa W., Electrical characterizations of deep levels in N+-implanted
ZnO single crystal, International Conference on Materials for Advanced
Technologies 2007. |
Gu Q., Hydrogen
peroxide treatment induced rectifying behavior of Au/n-ZnO contact. Hong
Kong, The |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Wang R.S., Gu Q., Ling F.C.C. and Ong H.C., Studies of oxide/ZnO near-interfacial defects by photoluminescence and deep level transient spectroscopy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 042105: 1-3. |
Researcher
: Gu Q |
List of Research Outputs |
Chen X., Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Reuther H. and Djurisic A., Influence of hydrogen peroxide treatment on Au/n-ZnO contact, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3633-3636. |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Gu Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Gu Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Gu Q., Ling F.C.C., Brauer G., Anwand W. and
Skorupa W., Electrical characterizations of deep levels in N+-implanted ZnO
single crystal, Best Poster Award – Symposium D: Semiconductor Photonics:
Nano-Structured Materials and Devices, 4th International Conference on
Materials for Advanced Technologies (ICMAT 2007), Singapore, Materials
Research Society Singapore and Materials Research Society US, July 1-6, 2007.
|
Gu Q., Ling F.C.C., Brauer G., Anwand W. and
Skorupa W., Electrical characterizations of deep levels in N+-implanted
ZnO single crystal, International Conference on Materials for Advanced
Technologies 2007. |
Gu Q., Hydrogen
peroxide treatment induced rectifying behavior of Au/n-ZnO contact. Hong
Kong, The |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Wang R.S., Gu Q., Ling F.C.C. and Ong H.C., Studies of oxide/ZnO near-interfacial defects by photoluminescence and deep level transient spectroscopy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 042105: 1-3. |
Researcher
: Guertler S |
List of Research Outputs |
Guertler S., Troyer M. and Zhang F.C.,
Quantum Monte Carlo study of a two-species bosonic Hubbard model, Physical
Review B. |
Researcher
: Hao J |
Project Title: |
Dielectric properties in novel perovskite oxide thin films |
Investigator(s): |
Hao JH |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
12/2004 |
Abstract: |
Objective of the research proposal: Design and synthesis of novel functional oxides with unusual and promising dielectric properties. Investigation of processing effects on the structural and dielectric properties of thin films. Searching and understanding of some possible new phenomena in novel perovskite oxide thin films. The key issue is to investigate how the preparation parameters of perovskite oxide thin film affect their dielectric properties. The key problem is interfacial effects between novel perovskite oxides and various substrates. In the proposed investigation, the growth of epitaxial thin film with full control will be carried out. Various structural, dielectric and optical characterizations will be employed. |
Project Title: |
Laser molecular beam epitaxy growth and characterization of SrTiO3 thin films for tunable YBa2Cu3Oy applications |
Investigator(s): |
Hao JH, Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
12/2004 |
Abstract: |
To investigate SrTiO3 thin films that exhibit enhanced dielectric properties suitable for tunable YBa2Cu3Oy (YBCO) applications with the specific aims of: (1) well-controlled epitaxial growth of STO thin films by laser molecular beam epitaxy (MBE); (2) establishment of the correlations between the deposition parameters of STO thin films, their structural characteristics, and dielectric properties. Realization of the fundamental mechanisms of dielectric properties in STO thin films; (3) evaluation of the feasibility of laser MBE grown YBCO/STO multilayers for tunable applications. |
Project Title: |
Substrate and buffer layer engineering for epitaxial perovskite titanate thin films |
Investigator(s): |
Hao JH, Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2006 |
Abstract: |
Project objectives: To investigate heteroepitaxial structures of perovskite titanates like strontium titanate thin films grown on various substrates and buffer layers with the specific aims of: 1) Design and development of suitable sets of buffer layers/substrates used to improve physical properties of perovskite titanate thin films. 2) Determining interface and strain effects on the structural and dielectric properties of various controlled heterostructures. 3.Identifying and understanding of some new phenomena such as the possible occurrence of strain-induced FE in perovskite titanate films. |
Researcher
: Hao JH |
Project Title: |
Dielectric properties in novel perovskite oxide thin films |
Investigator(s): |
Hao JH |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
12/2004 |
Abstract: |
Objective of the research proposal: Design and synthesis of novel functional oxides with unusual and promising dielectric properties. Investigation of processing effects on the structural and dielectric properties of thin films. Searching and understanding of some possible new phenomena in novel perovskite oxide thin films. The key issue is to investigate how the preparation parameters of perovskite oxide thin film affect their dielectric properties. The key problem is interfacial effects between novel perovskite oxides and various substrates. In the proposed investigation, the growth of epitaxial thin film with full control will be carried out. Various structural, dielectric and optical characterizations will be employed. |
Project Title: |
Laser molecular beam epitaxy growth and characterization of SrTiO3 thin films for tunable YBa2Cu3Oy applications |
Investigator(s): |
Hao JH, Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
12/2004 |
Abstract: |
To investigate SrTiO3 thin films that exhibit enhanced dielectric properties suitable for tunable YBa2Cu3Oy (YBCO) applications with the specific aims of: (1) well-controlled epitaxial growth of STO thin films by laser molecular beam epitaxy (MBE); (2) establishment of the correlations between the deposition parameters of STO thin films, their structural characteristics, and dielectric properties. Realization of the fundamental mechanisms of dielectric properties in STO thin films; (3) evaluation of the feasibility of laser MBE grown YBCO/STO multilayers for tunable applications. |
Project Title: |
Substrate and buffer layer engineering for epitaxial perovskite titanate thin films |
Investigator(s): |
Hao JH, Gao J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2006 |
Abstract: |
Project objectives: To investigate heteroepitaxial structures of perovskite titanates like strontium titanate thin films grown on various substrates and buffer layers with the specific aims of: 1) Design and development of suitable sets of buffer layers/substrates used to improve physical properties of perovskite titanate thin films. 2) Determining interface and strain effects on the structural and dielectric properties of various controlled heterostructures. 3.Identifying and understanding of some new phenomena such as the possible occurrence of strain-induced FE in perovskite titanate films. |
Researcher
: Harko TC |
Project Title: |
Astrophysical constraints on the multi-dimensional space-time models |
Investigator(s): |
Harko TC, |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2006 |
Abstract: |
(1) The main puprpose of the present investigation is to provide a systematic framework for the observational testing of brane world and other higher dimensional models in astrophysical settings. The first step of the project is to consider realistic galactic models in brane world theories. In the external galactic space-time the non-zero contribution of the Weyl tensor from the bulk (the dark radiation and the dark pressure) generates some gravitational effects we interprete as the "dark matter". An important test of the possible explanation of dark matter as a higher dimensional effect is the motion of particles in stable circular orbits around galaxies. We will investigate the effects of the dark radiation and pressure on the behavior of the tangential velocity of test particles moving around galaxies. (2)The study of light deflection by galaxies and the gravitational lensing could discriminate between the brane world and the standard dark matter models.In addition to this effect we will also consider the use of other astrophysical data like,e.g., the data of WMAP, gamma-ray bursts etc., to constrain the multi-dimensional space-time models. (3) One of the most important and surprising discoveries in cosmology in recent years is the realization that our universe is dominated by a mysterious dark energy, which leads to an accelerating expansion of the Universe. We will investigate the possibility that dark energy can be also related to the existence of the extra-dimensions. We will consider the suggestion that signals from early Universe may give some promising signatures of extra-dimensions. |
Project Title: |
Gravitational radiation from compact binary systems |
Investigator(s): |
Harko TC, |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2007 |
Abstract: |
1. Gravitational radiation from accreting binary systems Since its discovery in 1975 by Hulse and Taylor, the binary pulsar PSR 1913+16, consisting of a pulsar orbiting around an unseen companion star, has proved to be a powerful testing ground for gravitational theories. The most important measurement realized by using this system was the observation of orbital decay, which is due to gravitational radiation. Another important measurement was the determination of the masses of the stellar components of the system, which provided the most precise limits on neutron star masses currently known. A third major observational effect was the relativistic geodetic precession of the pulsar spin axis, providing the opportunity of mapping the pulsar beam in the latitude direction and a chance to observe the ''magnetic'' aspects of the gravity. On the other hand from observational point of view it has been shown that accretion in binaries with low-mass companions can lead to an important increase in the mass of the star. The amounts of matter accreted by the 18 radio pulsars in these binary systems exceed 0.5 solar masses. If at the beginning of the accretion process the masses of neutron stars are of the order of 1.4 solar masses, this means that accretion can lead to a major change in the mass of the star in the binary system. We propose to study the effects of the time variation of the gravitational mass on the energy loss via gravitational radiation in accreting binary systems, consisting of two point masses evolving around each other on Keplerian orbits, under their mutual gravitational influence, and in the presence of mass exchange between the two stars. The variation in the mass of the components leads to a modification of the gravitational energy emission, which in principle could be observationally detected as a supplementary change in the decay of the orbital period of the components of the binary system. 2. Spin effects in inspiralling compact binaries Gravitational radiation drives compact binaries through an inspiral phase towards a final coalescence. For binaries with spin, mass quadrupole and magnetic dipole moments, various contributions add to this process, which is characterized by the rate of increase of the gravitational wave frequency and the accumulated number of gravitational wave cycles. We propose to study the contributions of the spin-orbital angular momentum, spin-spin and quadrupole-monopole interactions contributions to the gravitational wave frequency, by using the post-Newtonian approximations. In particular we will carefully consider the contributions due to the self-interaction of individual spins. As a result of the precession of spins the magnitude L of the orbital angular momentum in the system is not conserved. Therefore a proper characterization of the radial motion in a binary system is provided by the energy E and the angular average over the angular momentum. These results can be tested with the observations of the proper spin-spin contributions for the recently discovered J0737-3039 double pulsar system. |
List of Research Outputs |
Bohmer C.G. and Harko T.C., Physics of dark energy particles, Foundations of Physics. Springer, 2008, 38: 216-227. |
Bohmer C.G., Harko T.C. and Lobo F.S.N., Solar system tests of brane world models, Classical and Quantum Gravity. Bristol, IOP Publishing Limited, 2008, 25: 045015: 1-12. |
Bohmer C.G., Harko T.C. and Lobo F.S.N., The generalized virial theorem in f(R) gravity, Journal of Cosmology and Astroparticle Physics. Bristol, IOP Publishing Limited, 2008, 03: 024: 1-17. |
Bohmer C.G., Harko T.C. and Lobo F.S.N., Wormhole geometries with conformal motions, Classical and Quantum Gravity. Bristol, IOP Publishing Limited, 2008, 25: 075016: 1-11. |
Böhmer C.G. and Harko T.C., Galactic dark matter as
a bulk effect on the brane, Classical and Quantum Gravity. |
Böhmer C.G. and Harko T.C., On Einstein clusters as
galactic dark matter haloes, Monthly Notices of the Royal Astronomical Society.
|
Harko T.C. and Sabau V.S., Jacobi stability of the vacuum in the static spherically symmetric brane world models, Physical Review D. New York, The American Physical Society, 2008, 77: 104009: 1-10. |
Harko T.C., Choi W.F., Wong K.C. and Cheng K.S., Reheating the Universe in braneworld cosmological models with bulk-brane energy transfer, Journal of Cosmology and Astroparticle Physics. IOP Publishing Ltd and SISSA, 2008, 002: 1-24. |
Harko T.C. and Cheng K.S., Virial theorem and the dynamics of clusters of galaxies in the brane world models, Physical Review D. New York, The American Physical Society, 2007, 76: 044013: 1-14. |
Pun J.C.S., Gergely L.~.$.C.1., Mak M.K., Kovács Z., Szabó G.M. and Harko T.C., Viscous dissipative Chaplygin gas dominated homogenous and isotropic cosmological models, Physical Review D. New York, The American Physical Society, 2008, 77: 063528: 1-11. |
Researcher
: Ho KH |
List of Research Outputs |
Ho K.H.
and Chau H.F., Entanglement
distillation by quantum low density parity codes – A preliminary study, Asian
Conference on Quantum Information Science 2007. |
Researcher
: Hong K |
List of Research Outputs |
Hong K., Xie M.H., Hu R. and Wu H.S., Diameter control of tungsten oxide nanowires as grown by thermal evaporation, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 085604: 1-5. |
Hong K.,
Synthesis of one-dimensional tungsten oxide nanostructures. Hong Kong,
The |
Researcher
: Hsu YF |
List of Research Outputs |
Brauer G., Anwand W., Skorupa W., Beynik I., Teichert C., Hsu Y.F., Xi Y., Zhu C., Ling F.C.C. and Djurisic A., Non-destructive characterization of vertical ZnO nanorod arrays by slow positron implantation spectroscopy, atomic force microscopy, and photoluminescence, 9th International Workshop on Positron and Positronium Chemistry, Wuhan University, China, May 11-15, 2008. 46. |
Djurisic
A., Tam K.H., Hsu Y.F., Zhang S., Xie M.H. and Chan W.K., GaN nanowires--influence of
the starting material on nanowire growth, Thin Solid Films. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Hsu Y.F., Xi Y., Yip C.T., Djurisic A. and Chan W.K., Dye-sensitized solar cells using ZnO tetrapods, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 083114: 1-4. |
Hsu Y.F., Djurisic A., Tam K.H., Cheung K.Y. and Chan W.K., Fabrication and
characterization of ZnO/TiOx nanoscale heterojunctions, Journal
of Crystal Growth. |
Hsu Y.F., Xi Y., Djurisic A., Chan W.K., Yip C.T. and Tam K.H., Hydrothermal growth of periodic ZnO nanorod arrays using polystyrene sphere templates, Proceedings of SPIE. 2007, 6639: 66390I: 1-8. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Hsu Y.F., Xi Y., Djurisic A. and Chan W.K., ZnO nanorods for solar cells: Hydrothermal growth versus vapor deposition, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 133507: 1-3. |
Xi Y., Hsu Y.F., Djurisic A., Ng M.C.A., Chan W.K., Tam H.L. and Cheah K.W., NiO/ZnO light emitting diodes by solution-based growth, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 113505: 1-3. |
Zhang S., Djurisic A., Hsu Y.F., Ng M.C.A. and Xie M.H., Influence of different insulating polymers on the performance of ZnO nanorod based LEDs, Proceedings of SPIE. 2008, 6988: 69881O: 1-8. |
Zhang
S., Tam K.H., Djurisic A. and Hsu Y.F., The influence of
source material composition on morphology and optical properties of ZnO
nanostructures, Journal of Nanoscience and Nanotechnology. |
Researcher
: Hu F |
List of Research Outputs |
Gao J. and Hu F., Rectifying behavior and magnetic tunability in heterojunctions composed of p-La0.9Ba0.1MnO3/n-Si, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 100-103. |
Gao J. and Hu F., The response of transport properties to static electric field in La0.7Ce0.3MnO3 epitaxial thin films, IEEE Transactions on Magnetics. IEEE, 2007, 43: 3058-3060. |
Hu F., Gao J., Luo Z., Wang L., Sun J.R. and Shen B.G., Abnormal electroresistance effect induced by electric currents in La0.9Ba0.1MnO3 thin films, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 113-116. |
Hu
F., Shen B.G., Sun J.R., Wang G.J. and Gao J., Magnetic properties and
magnetocaloric effect around phase boundary in La(FexAl1-x)13
compounds, Journal of Applied Physics. New York, American Institute of
Physics, 2007, 101: |
Markovich V., Jung G., Yuzhelevskii Y.,
Gorodetsky G., Hu F. and Gao J., Metastable resistivity of La0.8Ca0.2MnO3 manganite
thin films, Physical Review B. |
Zhang H.D., Li M., An Y.K., |
Zhang H.D., An Y.K., |
Researcher
: Hu K |
List of Research Outputs |
Hu K., Optically-injected
spin current and its scattering effect in semiconductor quantum wells.
Hong Kong, The |
Researcher
: Hu R |
List of Research Outputs |
Hong K., Xie M.H., Hu R. and Wu H.S., Diameter control of tungsten oxide nanowires as grown by thermal evaporation, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 085604: 1-5. |
Researcher
: Huang Y |
List of Research Outputs |
Ding L., Chen T.P., Liu Y., Ng C.Y., Yang M., Wong J.I., Zhu F.R., Tan M.C., Fung S.H.Y., Chen X. and Huang Y., Evolution of photoluminescence mechanisms of Si+-implanted SiO2 films with thermal annealing, Journal of Nanoscience and Nanotechnology. American Scientific Publishers, 2008, 8: 3555-3560. |
Jia J., Huang Y. and Cheng K.S., A morphological approach to the pulsed emission from soft gamma repeaters, The Astrophysical Journal. The American Astronomical Society, 2008, 677: 488-494. |
Researcher
: Huang Y |
List of Research Outputs |
Ding L., Chen T.P., Liu Y., Ng C.Y., Yang M., Wong J.I., Zhu F.R., Tan M.C., Fung S.H.Y., Chen X. and Huang Y., Evolution of photoluminescence mechanisms of Si+-implanted SiO2 films with thermal annealing, Journal of Nanoscience and Nanotechnology. American Scientific Publishers, 2008, 8: 3555-3560. |
Jia J., Huang Y. and Cheng K.S., A morphological approach to the pulsed emission from soft gamma repeaters, The Astrophysical Journal. The American Astronomical Society, 2008, 677: 488-494. |
Researcher
: Hui CW |
List of Research Outputs |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Researcher
: Hui IP |
List of Research Outputs |
Hui I.P., Construction the preparation, growth and characterization
chamber of molecular beam epitaxy system and some studies of the iron-gallium
nitride system with a view to spintronics applications. Hong Kong, The |
Researcher
: Jia J |
List of Research Outputs |
Jia J., Huang Y. and Cheng K.S., A morphological approach to the pulsed emission from soft gamma repeaters, The Astrophysical Journal. The American Astronomical Society, 2008, 677: 488-494. |
Jia J., Tang A.P.S., Takata J., Chang H.K. and Cheng K.S., The phase-resolved high energy spectrum of the crab pulsar, Advances in Space Research. Amsterdam, Elsevier Ltd., 2007, 40: 1425-1431. |
Researcher
: Jia J |
List of Research Outputs |
Jia J., Huang Y. and Cheng K.S., A morphological approach to the pulsed emission from soft gamma repeaters, The Astrophysical Journal. The American Astronomical Society, 2008, 677: 488-494. |
Jia J., Tang A.P.S., Takata J., Chang H.K. and Cheng K.S., The phase-resolved high energy spectrum of the crab pulsar, Advances in Space Research. Amsterdam, Elsevier Ltd., 2007, 40: 1425-1431. |
Researcher
: Jiang Z |
List of Research Outputs |
Jiang Z., Li J., Shen S.Q. and Liu W.M., Spin-filter effect induced by magnetic edge states of zigzag carbon nanotube, Chinese Physics Letters. Chinese Physical Society and IOP Publishing Ltd, 2008, 25: 1431-1434. |
Researcher
: Kwok S |
List of Research Outputs |
Deguchi S., Nakashima J., Kwok S. and Koning N.,
Identification of Very Red Counterparts of SiO Maser and OH/IR Objects in the
GLIMPSE Survey, The Astrophysical Journal. The |
Dinh-V-Trung , Bujarrabal V.,
Castro-Carrizo A., Lim J. and Kwok S.,
Massive Expanding Torus and Fast Outflow in Planetary Nebula NGC 6302, The Astrophysical Journal. |
Kwok
S., Extraterrestrial Influence on the
Evolution of the Early Earth, 外來因素對早期地球演化的影響, Journal of Taipei Astronomical Museum (臺北天文館學報).
|
Kwok S., Molecules and Solids in Planetary Nebulae and Proto-planetary Nebulae, Advances in Space Research. Elsevier Ltd., 2007, 40: 655-658. |
Kwok S., Zhang Y., Koning N., Huang H.-.H. and Churchwell E., Planetary nebulae detected in the Spitizer space telescope GLIMPSE legacy survey, In: Ethan T. Vishniac, ApJS. 2008, 174: 426. |
Kwok
S., Zhang
Y. and Nakashima J., Telescope Time
of the SMT |
Lee T.H., Lim J. and Kwok S., Optically Thick Radio Cores
of Narrow-Waist Bipolar Nebulae, The Astrophysical Journal. The |
Nakashima
J., Fong D., Hasegawa T., Hirano N., Koning N., Kwok S., Lim J., Dinh-Van-Trung and
Young K., Submillimeter Array Observation of the Proto-Planetary Nebula CRL |
Olofsson A.O.H., Persson C.M., Koning N., Bergman P., Bernath P.F., Black J.H., Frisk U., Geppert W., Hasegawa T.I., Hjalmarson Å., Kwok S., Larsson B., Lecacheux A., Nummelin A., Olberg M., Sandqvist A.a. and Wirström E.S., A Spectral Line Survey of Orion Kl in the Bands 486-492 and 541-577 Ghz with the Odin Satellite. I. The Observational Data, Astronomy and Astrophysics. EDP Sciences, 2007, 476: 791-806. |
Persson C.M., Olofsson A.O.H., Koning N., Bergman P., Bernath P., Black J.H., Frisk U., Geppert W., Hasegawa T.I., Hjalmarson Å., Kwok S., Larsson B., Lecacheux A., Nummelin A., Olberg M., Sandqvist A.a. and Wirström E.S., A Spectral Line Survey of Orion Kl in the Bands 486-492 and 541-577 Ghz with the Odin Satellite. II. Data Analysis, Astronomy and Astrophysics. EDP Sciences, 2007, 476: 807-828. |
Volk K., Kwok S. and Hrivnak B.J., Possible
Precession Motion in the Bipolar Proto-Planetary Nebula IRAS 17441−2411, The Astrophysical Journal. |
Wang M.Y., Hasegawa T.I. and Kwok S., The Detection of a
Molecular Bipolar Flow in the Multipolar Planetary Nebula NGC 2440, The
Astrophysical Journal. |
Zhang
Y., Kwok S. and |
Zhang
Y., Kwok S. and |
Zhang
Y., Nakashima J. and Kwok S., Telescope Time of CSO
(Project Title: Search for CF+ in the Envelope of IRC+10216), Caltech
Submillimeter Observatory Telescope, Mauna Kea |
Zhang
Y., Nakashima J., Deguchi S. and Kwok S., Telescope Time of the NRO |
Researcher
: Kwok T |
List of Research Outputs |
Kwok T.,
A study of background radiation and cosmic muon detection at the |
Researcher
: Lam HC |
List of Research Outputs |
Lam H.C., Dose modelling of the recoil effect of radon progeny attached
aerosol in human respiratory tract by |
Researcher
: Leung ACA |
List of Research Outputs |
Leung A.C.A., Atomic structure studies of Holmium on SI(111) surface by low
energy electron diffraction Patterson inversion at multiple incident angles.
Hong Kong, The |
Researcher
: Leung CC |
List of Research Outputs |
Leung C.C. and Chau H.F., Weighted accelerated growth model of complex networks, International Journal of Modern Physics B. Singapore, World Scientific, 2007, 21: 4064-4066. |
Researcher
: Leung JKC |
Project Title: |
|
Investigator(s): |
Leung JKC, Jiao JJJ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2007 |
Abstract: |
(1) The project is related to
environmental radioactivity and it has the following objectives: - To produce
a |
List of Research Outputs |
Li Y.,
Ching W.H., Qian H., Yuen P.L., Seto W.H., Kwan J.K., Leung J.K.C., Leung M.K.H. and Yu S.C.T., An
evaluation of the ventilation performance of new SARS isolation wards in nine
hospitals in |
Li Y.,
Leung M.K.H., Seto W.H., Yuen P.L., Leung J.K.C., Kwan J.K. and Yu
S.C.T., Factors affecting ventilation effectiveness in SARS wards, Hong
Kong Medical Journal. |
Yu K.N., Leung S.Y.Y., Nikezic D. and Leung J.K.C., Equilibrium factor determination using SSNTDs, Radiation Measurements. Amsterdam, Elsevier Ltd., 2008, 43: S357-S363. |
Researcher
: Leung YH |
List of Research Outputs |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Leung Y.H., Djurisic A., Liu Z., Li D., Xie M.H. and Chan W.K., Defect photoluminescence of ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 353-357. |
Li D., Liu Z., Leung Y.H., Djurisic A., Xie M.H. and Chan W.K., Transition metal-doped ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 616-619. |
Researcher
: Li D |
List of Research Outputs |
Leung Y.H., Djurisic A., Liu Z., Li D., Xie M.H. and Chan W.K., Defect photoluminescence of ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 353-357. |
Li D., Fabrication
and characterization of metal oxide nanostructures. Hong Kong, The |
Li D., Liu Z., Leung Y.H., Djurisic A., Xie M.H. and Chan W.K., Transition metal-doped ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 616-619. |
Xi Y., Li D., Djurisic A., Xie M.H., Man K.K.Y. and Chan W.K., Hydrothermal synthesis vs electrodeposition for high specific capacitance nanostructured NiO films, Electrochemical and Solid-State Letters. The Electrochemical Society, 2008, 11: D56-D59. |
Researcher
: Li J |
List of Research Outputs |
Jiang Z., Li J., Shen S.Q. and Liu W.M., Spin-filter effect induced by magnetic edge states of zigzag carbon nanotube, Chinese Physics Letters. Chinese Physical Society and IOP Publishing Ltd, 2008, 25: 1431-1434. |
Li J., Spin
transport in mesoscopic systems with spin-orbit coupling. Hong Kong, The |
Li J.
and Shen S.Q., Spin-current-induced
charge accumulation and electric current in semiconductor nanostructures with
Rashba spin-orbit coupling, Physical Review B (Brief Reports). |
Researcher
: Li J |
List of Research Outputs |
Jiang Z., Li J., Shen S.Q. and Liu W.M., Spin-filter effect induced by magnetic edge states of zigzag carbon nanotube, Chinese Physics Letters. Chinese Physical Society and IOP Publishing Ltd, 2008, 25: 1431-1434. |
Li J., Spin
transport in mesoscopic systems with spin-orbit coupling. Hong Kong, The |
Li J.
and Shen S.Q., Spin-current-induced
charge accumulation and electric current in semiconductor nanostructures with
Rashba spin-orbit coupling, Physical Review B (Brief Reports). |
Researcher
: Li P |
List of Research Outputs |
He P.B., Sun Q., Li P., Shen S.Q. and Liu W.M., Magnetic quantum
phase transition of cold atoms in an optical lattice, Physical Review A.
|
Researcher
: Li T |
List of Research Outputs |
Li T., Search
for quasisoft x-ray sources in the galactic center. Hong Kong, The |
Researcher
: Ling FCC |
Project Title: |
Experimental studies of defects in ZnO: electrical and optical activities of O-vacancy and Zn-vacancy related defects |
Investigator(s): |
Ling FCC, Xu SJ, Chen X |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
12/2004 |
Abstract: |
To identify and characterize different defects in as-grown and particle irradiated ZnO. Annealing behaviors of the defects will also be investigated; to study the correlation between the identified defects and to investigate their microstructure; to study the involvement of O-vacancy and Zn-vacancy in PL transition; to study the role of O-vacancy and Zn-vacancy in determining the material electrical properties. |
Project Title: |
Natures and identities of defects in 6H silicon carbide induced by low energy electron irradiation |
Investigator(s): |
Ling FCC, Fung SHY |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
08/2005 |
Abstract: |
To study the defects in low energy electron irradiated 6H-SiC with the use of positron annihilation spectroscopy, deep level transient spectroscopy, deep level optical spectroscopy and photoluminescence, while bearing the following objectives: (1) Characterize and identify the defects induced in low energy electron irradiated 6H-SiC material, as well as their annealing derivatives; (2) Explore the physical identities of the DLTS signals E1/E2, the PL signals D1 and EA; and (3) Study the role of these defects played in compensating the material, in particular for the case of carbon vacancy related defects. |
Project Title: |
Ion implantation of zinc oxide material: dopant activation and defect characterization |
Investigator(s): |
Ling FCC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2007 |
Abstract: |
(1) Most of the attempts to introduce doping into ZnO were done on deposition grown materials (i.e. MBE, CVD or PVD etc.). However, ion implantation doping technique of ZnO is still immature and required more attention. With the aim to introduce n-type and p-type doping, ion implantation in ZnO materials is proposed to be performed. (2) Al and/or Ga implantations are proposed to introduce the n-type doping into the material. For p-type doping, N ion will be the focus of studies. Co-doping with group III and V elements will also be attempted to achieve the p-type doping. Studies of activating the implanted dopants by annealing will be performed. (3) The deep level defects induced by the ion implantation process will be studied by deep level transient spectroscopy. Attention will also be paid to the annealing effect of these deep level defects. Temperature dependent Hall measurement will also be performed to investigate the shallow acceptor/donor states introduced. (4) Positron annihilation spectroscopic technique will be employed to study the open volume defects created by the ion implantation process. |
Project Title: |
Fabrication of good quality Schottky contact on n-ZnO materials |
Investigator(s): |
Ling FCC |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2007 |
Abstract: |
Zinc oxide is a wide band gap semiconductor that has potential applications in fabricating optoelectronic devices operating in the UV wavelength, transparent high power electronic devices and piezo-electric transducers [1,2]. As compared to the other direct band gap wide bandgap semiconductor GaN that have already found various applications in optoelectronic devices, ZnO has the advantages of the availability of its form in bulk single crystal, and its larger exciton binding energy [1,2]. Metal-semiconductor rectifying contact (Schottky contact) is an important structure for constructing electronic devices. The electrical properties of the contact depends on a lot of factors, such as the work functions of the corresponding metal and semiconductor, surface contamination, the interfacial states that pin the Fermi level at the metal-semiconductor junction, electrical active defects, or the formation of new chemical phase at the metal-semiconductor junction. For the case of n-type ZnO, there is only very limited knowledge on fabricating reliable and good quality Schottky contact. As referring to the ideal Schottky model, the Schottky barrier height is given by $W_{M}-A_{S}$, where $W_{M}$ is the work function of the metal and $A_{S}$ is the electron affinity of the semiconductor, and thus metals having large values of work function (like Au, Ag and Pt) would be expected to yield contact with large Schottky barrier height. Although there were some reports of fabricating rectifying contacts by using the metals of Au [1-6], Ag [5,7] Pd [8] and Pt [9-11] from some research groups, fabricating good quality Schottky contact to n-type ZnO was difficult and not easily reproducible. Fabricating metal contact onto the substrate without surface pre-treatment usually yields ohmic contact. In all of the successful cases, surface pre-treatments were needed to yield good quality rectifying contacts. These surface treatments included ozone exposure, plasma exposure, hydrogen peroxide and sulfide pre-treatments. However, the reasons for such observations were poorly understood and controversial. It has been associated by different research groups to carbon and OH contaminations, deep level defects, morphology, Fermi level pinning and interfacial state formation. Au/n-ZnO contact was the one that has received the most extensive attention although the fabricated rectifying contact has been reported to be thermally unstable. Diverged values of Schottky barrier height and ideality factor have been reported to be in the range of 0.50-0.71 eV and 1.05-2.00 respectively. Pt was the other metal that has also received some attention for fabricating Schottky contact (with barrier height ranging from 0.50-0.61 eV and ideality factor ranging from 1.15-1.70) because of its high metal work function. The present proposal aims to fabricate a high quality and reproducible Schottky contact on n-type ZnO. [1] U. Ozgur, Ya. I. Ailvov, C. Liu, A. Teke, M. A. Reshchikov, S. Dogan, V. Avrutin, S. –J. Cho and H. Morkoç, J. Appl. Phys. 98, 041301 (2005). [2] S. J. Pearton, D. P. Norton, K. Ip, Y. W. Heo, T. Steiner, Progress in Materials Science 50, 293 (2005). [3] B. J. Coppa, R. F. Davis, R. J. Nemanich, Appl. Phys. Lett. 82, 400 (2003). [4] H. L. Mosbacker, Y. M. Strzhemechny, B. D. White, P. E. Smith, D. C. Look, D. C. Reynolds, C. W. Litton, L. J. Brillson, Appl. Phys. Lett. 87, 012102 (2005). [5] A. Y. Polyakov, N. B. Smirnov, E. A. Kozhuknova, V. I. Vdovin, K. Ip, Y. W. Heo, D. P. Norton, S. J. Pearton, Appl. Phys. Lett. 83, 1575 (2003). [6] D. C. Oh, J. J. Kim, H. Makino, T. Hanada, M. W. Cho, T. Yao, H. J. Ko, Appl. Phys. Lett. 86, 042110 (2005). [7] H. Sheng, S. Muthukumar, N. W. Emanetoglu, Y. Lu, Appl. Phys. Lett. 80, 2132 (2002). [8] H. von Wenckstern, E. M. Kaidashev, M. Lorenz, H. Hochmuth, G. Biehne, J. Lenzner, V. Gottschalch, R. Pickenhain, M. Grundmann, Appl. Phys. Lett. 84, 79 (2004). [9] S. –H. Kim, H. –K. Kim, T. –Y. Seong, Appl. Phys. Lett. 86, 112101 (2005). [10] S. –H. Kim, H. –K. Kim, T. –Y. Seong, Appl. Phys. Lett. 86, 022101 (2005). [11] K. Ip, B. P. Gila, A. H. Onstine, E. S. Lambers, Y. W. Heo, K. H. Baik, D. P. Norton, J. R. LaRoche, F. Ren, Appl. Phys. Lett. 84, 5133 (2004). |
List of Research Outputs |
Brauer G., Anwand W., Skorupa W., Beynik I., Teichert C., Hsu Y.F., Xi Y., Zhu C., Ling F.C.C. and Djurisic A., Non-destructive characterization of vertical ZnO nanorod arrays by slow positron implantation spectroscopy, atomic force microscopy, and photoluminescence, 9th International Workshop on Positron and Positronium Chemistry, Wuhan University, China, May 11-15, 2008. 46. |
Chen X., Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Reuther H. and Djurisic A., Influence of hydrogen peroxide treatment on Au/n-ZnO contact, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3633-3636. |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Gu
Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Gu
Q., Ling F.C.C., Brauer
G., Anwand W. and Skorupa W., Electrical characterizations of deep levels in
N+-implanted ZnO single crystal, Best Poster Award – Symposium D:
Semiconductor Photonics: Nano-Structured Materials and Devices, 4th
International Conference on Materials for Advanced Technologies (ICMAT 2007),
Singapore, Materials Research Society Singapore and Materials Research
Society US, July 1-6, 2007. |
Gu
Q., Ling F.C.C., Brauer
G., Anwand W. and Skorupa W., Electrical characterizations of deep levels in
N+-implanted ZnO single crystal, International Conference on
Materials for Advanced Technologies 2007. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Ling
F.C.C., Defects in p-type ZnO structures and
ZnO Schottky contact, Physical Society of |
Wang R.S., Gu Q., Ling F.C.C. and Ong H.C., Studies of oxide/ZnO near-interfacial defects by photoluminescence and deep level transient spectroscopy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 042105: 1-3. |
Zhang J., Cheng C.C., Ling F.C.C., Beling C.D. and Fung S.H.Y., Silicon and carbon vacancies in silicon carbide studied by coincidence Doppler broadening spectroscopy, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3676-3679. |
Zhu
C., Ling F.C.C., Brauer
G., Anwand W. and Skorupa W., Deep level defect study of As-implanted ZnO p-n
junction, Wide Band Gap Semiconductor Nanostructures for Optoelectronic
Applications, E-MRS 2008 Spring Meeting, |
Researcher
: Liu C |
List of Research Outputs |
Liu
C., Zhou
B., Shen S.Q. and Zhu B.F.,
Current-induced spin polarization in a two-dimensional hole gas, Physical
Review B. |
Researcher
: Liu Y |
List of Research Outputs |
Liu Y., Cai Y., Zhang L.X., Xie M.H., Wang N., Zhang S.B. and Wu H.S., Dislocation network at InN/GaN interface revealed by scanning tunneling microscopy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 231907: 1-3. |
Researcher
: Liu Z |
List of Research Outputs |
Leung Y.H., Djurisic A., Liu Z., Li D., Xie M.H. and Chan W.K., Defect photoluminescence of ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 353-357. |
Li D., Liu Z., Leung Y.H., Djurisic A., Xie M.H. and Chan W.K., Transition metal-doped ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 616-619. |
Researcher
: Lu H |
List of Research Outputs |
Lu
H. and Shen
S.Q., Using spin bias to manipulate and measure spin in quantum dots, Physical
Review B. |
Researcher
: Lu L |
List of Research Outputs |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Gu
Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and
Skorupa W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Researcher
: Luo J |
List of Research Outputs |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Researcher
: Luo Z |
List of Research Outputs |
Gao J., Fu E., Luo Z., Wu X. and Yang J., Superconductivity and crystallinity in epitaxial thin films of YBa2Cu3Oy grown on Eu2CuO4/YSZ double buffered silicon, International Journal of Modern Physics B. World Scientific Pub., 2007, 21: 3263-3265. |
Gao J., Fu E., Luo Z., Wang Z. and Yu D.P., TEM study of the microstructure and interfaces in YBa2Cu3Oy thin films grown on silicon with a Eu2CuO4/Y-ZrO2 bi-layer buffer, Surface Review and Letters. World Scientific Pub., 2007, 14: 751-754. |
Hu F., Gao J., Luo Z., Wang L., Sun J.R. and Shen B.G., Abnormal electroresistance effect induced by electric currents in La0.9Ba0.1MnO3 thin films, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 113-116. |
Luo Z., Gao J., Djurisic A., Yip C.T. and Zhang G.B., Photoelectric response of Schottky barrier in La0.7Ca0.3MnO3/Nb:SrTiO3 heterojunctions, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 182501: 1-3. |
Luo Z. and Gao J., Rectifying characteristics and magnetoresistance in La0.9Sr0.1MnO3/Nb-doped SrTiO3 heterojunctions, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 109-112. |
Luo Z., Hao J.H. and Gao J., Rectifying characteristics and transport behavior of SrTiO3-d(110)/p-Si(100) heterojunctions, Applied Physics Letters. New York, American Institute of Physics, 2007, 91: 062105: 1-3. |
Luo Z. and Gao J., The structure and transport properties of La0.9Sr0.1MnO3, Surface Review and Letters. World Scientific Pub., 2007, 14: 813-816. |
Wang
Z., Yu G.L., Nie Y., Wu Z.F., Qiu L., Luo Z. and Gao J., Effect of applied magnetic field
on the rectifying characteristics in self-doped La0.9MnO3/0.8 wt
%Nb-SrTiO3 heteroepitaxial junctions, Journal of Applied Physics. New
York, American Institute of Physics, 2008, 103: |
Researcher
: Mak MK |
List of Research Outputs |
Pun J.C.S., Gergely L.~.$.C.1., Mak M.K., Kovács Z., Szabó G.M. and Harko T.C., Viscous dissipative Chaplygin gas dominated homogenous and isotropic cosmological models, Physical Review D. New York, The American Physical Society, 2008, 77: 063528: 1-11. |
Researcher
: Mak SY |
List of Research Outputs |
Kong A.K.H., Yang Y.J., Hsieh P.-.Y., Mak S.Y. and Pun J.C.S., The ultraluminous X-ray sources near the center of M82, The Astrophysical Journal. The American Astronomical Society, 2007, 671: 349-357. |
Researcher
: Man WC |
List of Research Outputs |
Chau H.F. and Man W.C., Minority game with inertial agents, International Journal of Modern Physics B. Singapore, World Scientific, 2007, 21: 4067-4070. |
Researcher
: Nahid F |
List of Research Outputs |
Cheung C.K., Nahid F., Cheng C.C., Beling C.D., Fung S.H.Y., Ling F.C.C., Djurisic A., Pramanik C., Saha H. and Sarkar C.K., Optical and microstructural characterization of porous silicon using photoluminescence, SEM and positron annihilation spectroscopy, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 486002: 1-17. |
Nahid F., The temperature dependence of positronium formation in high
density polyethylene. Hong Kong, The |
Researcher
: Nakashima J |
List of Research Outputs |
Chen X., Nakashima J., Imai H. and Shen Z.Q.,
Telescope Time of VLBA (Project Title: VLBA Observation of VY CMa in the SiO
J=1-0 v=1,2 and 3 Lines), Very Long Baseline Array (VLBA), National Radio
Astronomy |
Gómez Y., Tafoya D., Anglada G., Loinard L., Torrelles J.M., Miranda L.F., Osorio M., Franco-Hernández R., Nyman L., Nakashima J. and Deguchi S., HCO+ emission possibly related with a shielding mechanism that protects water molecules in the young PN K 3-35, Organic Matter in Space, Proceedings of the International Astronomical Union, IAU Symposium. 2008, 251: 173-174. |
Imai H., He J., Nakashima J. and Ukita N., Telescope
Time of ASTE (Project Title: Jet and Equatorial Flows of Molecular Gas Driven
from "Water Fountain" Sources), Atacama Submillimeter Telescope
Experiment (ASTE), National Astronomical Observatory |
Imai H., Deguchi S., Nakashima J. and Diamond P.J.,
Telescope Time of VLBA (Project Title: Annual Parallax Distance and Orbit of
the Water Fountain Source IRAS 18286-0959), Very Long Baseline Array
(VLBA), National Radio Astronomy |
Imai H., Deguchi S., Nakashima J. and Diamond P.J.,
Telescope Time of VLBA (Project Title: Proper Motion of the H2O Masers in the
Water Fountain Source IRAS 18460-0151), Very Long Baseline Array (VLBA),
National Radio Astronomy |
Imai H., Deguchi S., Nakashima J. and Diamond P.J.,
Telescope Time of VLBA (Project Title: Proper Motions of the W |
Kwok
S., Zhang Y. and Nakashima J., Telescope Time of the
SMT |
Nakashima
J., Deguchi S., Imai H. and Kemball A.,
Molecular Line Observations of the SiO Maser Source IRAS 19312+1950, Proceedings of IAU Symposium No. 242 (Astrophysical
Masers and Their Environment). |
Nakashima J., Research Activity of the HKU Evolved Stars Group, In: Sawada, T., NRO Colloquium. 2008. |
Nakashima
J., Fong D., Hasegawa T., Hirano N., Koning
N., Kwok S., Lim J., Dinh-Van-Trung
and Young K., Submillimeter Array Observation of the Proto-Planetary Nebula
CRL |
Nakashima
J., Deguchi S., Koike K., Sawada T. and Zhang Y., Telescope Time of the NRO |
Tafoya D. and Nakashima J., Telescope Time of SMA
(Project Title: Probing the Molecular Circumstellar Envelope of IRAS
17347-3139), Submillimeter Array, |
Zhang
Y., Nakashima J. and Kwok S., Telescope Time of CSO (Project
Title: Search for CF+ in the Envelope of IRC+10216), Caltech Submillimeter
Observatory Telescope, Mauna Kea |
Zhang
Y., Nakashima J., Deguchi
S. and Kwok S., Telescope Time of the
NRO |
Researcher
: Ng MCA |
List of Research Outputs |
Cheng K.W., Mak S.K., Chan W.K., Ng M.C.A. and Djurisic A., Synthesis of conjugated polymers with pendant ruthenium terpyridine trithiocyanato complexes and their applications in heterojunction photovoltaic cells, Journal of Polymer Science: Part A: Polymer Chemistry. Wiley Periodicals, Inc., 2008, 46: 1305-1317. |
Gu Q., Cheung C.K., Ling F.C.C., Ng M.C.A., Djurisic A., Lu L., Chen X., Fung S.H.Y., Beling C.D. and Ong H.C., Au/n-ZnO rectifying contact fabricated with hydrogen peroxide pretreatment, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 093706: 1-8. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Lu A.W., Chan J., Ng M.C.A., Djurisic A. and Rakic A.D., Multi-objective optimization of microcavity OLEDs with DBR mirror, Proceedings of SPIE. 2007, 6470: 647014: 1-9. |
Ng M.C.A., Djurisic A., Tam K.H., Cheng K.W., Chan W.K., Tam H.L., Cheah K.W., Lu A.W.,
Chan J. and Rakić A.D.,
3,4,9,10-Perylenetetracarboxylicdiimide as an interlayer for ultraviolet
organic light emitting diodes, Optics Communications. |
Ng M.C.A., Djurisic A. and Chan W.K., Organic luminescent nanowires
– fabrication and characterization, SPIE Photonics Asia, |
Ng M.C.A., Djurisic A., Tam K.H., Kwok W.M., Chan W.K., Tam W.Y., Phillips D.L. and Cheah K.W., Organic nanoclusters on inorganic nanostructures for tailoring the emission properties of organic materials, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 566-574. |
Wong W.Y., Wang X.Z., He Z., Chan K.K., Djurisic A., Cheung K.Y., Yip C.T., Ng M.C.A., Xi Y., Mak S.K. and Chan W.K., Tuning the absorption, charge transport properties, and solar cell efficiency with the number of thienyl rings in platinum-containing poly(aryleneethynylene)s, Journal of the American Chemical Society. American Chemical Society, 2007, 129: 14372-14380. |
Xi Y., Hsu Y.F., Djurisic A., Ng M.C.A., Chan W.K., Tam H.L. and Cheah K.W., NiO/ZnO light emitting diodes by solution-based growth, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 113505: 1-3. |
Zhang S., Djurisic A., Hsu Y.F., Ng M.C.A. and Xie M.H., Influence of different insulating polymers on the performance of ZnO nanorod based LEDs, Proceedings of SPIE. 2008, 6988: 69881O: 1-8. |
Researcher
: Ning J |
List of Research Outputs |
Ning J.,
Xu S.J., Yu D.P., Shan Y.Y. and Lee
S.T., |
Ning J.,
Applications of optical spectroscopy to studies of electronic and
vibrational states in semiconductor nanostructures. Hong Kong, The |
Researcher
: Pun JCS |
Project Title: |
Understanding
the nature of Supernova Remnant |
Investigator(s): |
Pun JCS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2003 |
Abstract: |
To study the Supermove Remnant ( SNR |
Project Title: |
Radio telescope for physics and astronomy teaching and research |
Investigator(s): |
Pun JCS |
Department: |
Physics |
Source(s) of Funding: |
Leung Kau Kui Research and Teaching Endowment Fund - Teaching Grants |
Start Date: |
05/2004 |
Abstract: |
Establish the first radio astronomical
telescope in Hong Kong, strengthening the leadership of HKU on astronomy
education; provide students with an all-rounded training in astronomy
education; lay the foundation of radio astronomy research in |
Project Title: |
Understanding
the nature of supernova remnant |
Investigator(s): |
Pun JCS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2006 |
Abstract: |
(1) Supernova |
Project Title: |
Simulations of Particle Background and Design of Neutrino Detectors in Underground Laboratories |
Investigator(s): |
Pun JCS, Leung JKC |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
01/2007 |
Abstract: |
Key objectives: 1. To use parameters and
measurements from the Aberdeen Tunnel experiment to assist with the design of
the |
List of Research Outputs |
Kong A.K.H., Yang Y.J., Hsieh P.-.Y., Mak S.Y. and Pun J.C.S., The ultraluminous X-ray sources near the center of M82, The Astrophysical Journal. The American Astronomical Society, 2007, 671: 349-357. |
Pun
J.C.S., Circumstellar materials of SN |
Pun J.C.S., Gergely L.~.$.C.1., Mak M.K., Kovács Z., Szabó G.M. and Harko T.C., Viscous dissipative Chaplygin gas dominated homogenous and isotropic cosmological models, Physical Review D. New York, The American Physical Society, 2008, 77: 063528: 1-11. |
Researcher
: Qiao Z |
List of Research Outputs |
Qiao Z. and Wang J., A variant transfer matrix method suitable for transport through multi-probe systems, Nanotechnology. Bristol, IOP Publishing Limited, 2007, 18: 435402: 1-6. |
Researcher
: Quan H |
List of Research Outputs |
Quan
H., Wang
Z.D. and Sun C.P., Quantum critical dynamics of a qubit coupled to an
isotropic Lipkin-Meshkov-Glick bath, Physical Review A. |
Researcher
: Rice TM |
List of Research Outputs |
Chen W., Yang K., Rice T.M. and Zhang F.C., Quantum oscillations in magnetic-field-induced antiferromagnetic phase of underdoped cuprates: Application to ortho-II YBa2Cu3O6.5, Europhysics Letters. EPLA, 2008, 82: 17004: 1-5. |
Chen
Y., Rice T.M. and Zhang F.C., Atomic scale rotational
symmetry breaking in lightly doped Ca2-xNaxCuO2Cl2, Physica
C-Superconductivity and its Applications. |
Rice
T.M., Yang
K. and Zhang F.C., A phenomenological
theory of the pseudogap state, Physica C-Superconductivity and its
Applications. |
Yang
K., Rice T.M. and Zhang F.C., Effect of superlattice
modulation of electronic parameters on the density of states of cuprate
superconductors, Physical Review B (Rapid Communications). |
Researcher
: Shangguan M |
List of Research Outputs |
Shangguan M., Charge and spin transport in mesoscopic systems. Hong
Kong, The |
Researcher
: Shen S |
Project Title: |
Decoherence and non-exponential relaxation of quantum tunnelling in nano-magnetic molecules |
Investigator(s): |
Shen SQ, Chen Z |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2002 |
Abstract: |
To understand the physical mechanism of decoherence and non-exponential relaxation in quantum tunnelling in nano-magnetic molecules. |
Project Title: |
Local stray field and macroscopic quantum tunneling in nanometer-sized magnetic particles and clusters |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2003 |
Abstract: |
To understand the role of environmental interaction in quantum tunneling and decoherence from the magnetization reversal in nanometer-sized clusters, to establish an efficient method to deduce microscopic parameters from the experimental data, to study the novel properties of newly synthesized supramolecular dimers, and to explore possible application in magnetic memory and information industry. |
Project Title: |
Quantum spin transport and geometric phases |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2003 |
Abstract: |
To understand the relation between quantum spin transport and geometric phases in some mesocopic structures where spin and charge currents could arise from the spin interference. |
Project Title: |
Exact real space renormalization group transformation and its application to the spin and electron lattice systems |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2004 |
Abstract: |
To develop a non-perturbative theory for the spin and electron lattices in strongly correlated electron systems. |
Project Title: |
Generation and coherent control of spin current in metals and semiconductors |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2004 |
Abstract: |
To investigate spin transport in metals and semiconductors, and to explore possible measurement of pure spin current. |
Project Title: |
Spin coherent transport of electrons in metals and semiconductors |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2005 |
Abstract: |
The primary objective of this proposal is to investigate spin coherent transport of electrons, especially how to generate and control spin current of electrons in metals and semiconductors. |
Project Title: |
Spin transverse force and its applications in quantum spin and charge transport |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2006 |
Abstract: |
(1) Purpose: The primary objective of this proposal is to investigate the motion of electron spins in an electric field and in electronic systems with strong spin-orbit coupling. This project will focus on the electron transport driven by the spin polarized current and spin current, and spin dependent effects such as the Aharonov-Casher effect and its relevance to spin transport. (2) Key issues: Spin-orbit coupling reflects the interaction of the electron spin, electron momentum and its environments. It is a potential route to control and to manipulate quantum spin state and coherent transport. As an extension of Ehrenfest’s theorem a quantum mechanical version of spin transverse force can be obtained in electronic systems with strong spin-orbit coupling. This force and the force balance in equilibrium states are very useful to investigate the spin transport effect. Based on the concept of spin force it will be anticipated to develop a theory for spin resolved charge quantum transport driven by spin polarized current and spin current, and anomalous charge transport in ferromagnetic metals and semiconductors, and to establish a relation between spin current and spin polarization. (3) Likely outcome: It is expected to develop a quantum transport theory based on the extended Ehrenfest’s theorem on spin force. The research results will be reported in the leading physics journals, such as Physical Review and Physics Review Letters. |
Researcher
: Shen SQ |
Project Title: |
Decoherence and non-exponential relaxation of quantum tunnelling in nano-magnetic molecules |
Investigator(s): |
Shen SQ, Chen Z |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2002 |
Abstract: |
To understand the physical mechanism of decoherence and non-exponential relaxation in quantum tunnelling in nano-magnetic molecules. |
Project Title: |
Local stray field and macroscopic quantum tunneling in nanometer-sized magnetic particles and clusters |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2003 |
Abstract: |
To understand the role of environmental interaction in quantum tunneling and decoherence from the magnetization reversal in nanometer-sized clusters, to establish an efficient method to deduce microscopic parameters from the experimental data, to study the novel properties of newly synthesized supramolecular dimers, and to explore possible application in magnetic memory and information industry. |
Project Title: |
Quantum spin transport and geometric phases |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2003 |
Abstract: |
To understand the relation between quantum spin transport and geometric phases in some mesocopic structures where spin and charge currents could arise from the spin interference. |
Project Title: |
Exact real space renormalization group transformation and its application to the spin and electron lattice systems |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2004 |
Abstract: |
To develop a non-perturbative theory for the spin and electron lattices in strongly correlated electron systems. |
Project Title: |
Generation and coherent control of spin current in metals and semiconductors |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2004 |
Abstract: |
To investigate spin transport in metals and semiconductors, and to explore possible measurement of pure spin current. |
Project Title: |
Spin coherent transport of electrons in metals and semiconductors |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2005 |
Abstract: |
The primary objective of this proposal is to investigate spin coherent transport of electrons, especially how to generate and control spin current of electrons in metals and semiconductors. |
Project Title: |
Spin transverse force and its applications in quantum spin and charge transport |
Investigator(s): |
Shen SQ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2006 |
Abstract: |
(1) Purpose: The primary objective of this proposal is to investigate the motion of electron spins in an electric field and in electronic systems with strong spin-orbit coupling. This project will focus on the electron transport driven by the spin polarized current and spin current, and spin dependent effects such as the Aharonov-Casher effect and its relevance to spin transport. (2) Key issues: Spin-orbit coupling reflects the interaction of the electron spin, electron momentum and its environments. It is a potential route to control and to manipulate quantum spin state and coherent transport. As an extension of Ehrenfest’s theorem a quantum mechanical version of spin transverse force can be obtained in electronic systems with strong spin-orbit coupling. This force and the force balance in equilibrium states are very useful to investigate the spin transport effect. Based on the concept of spin force it will be anticipated to develop a theory for spin resolved charge quantum transport driven by spin polarized current and spin current, and anomalous charge transport in ferromagnetic metals and semiconductors, and to establish a relation between spin current and spin polarization. (3) Likely outcome: It is expected to develop a quantum transport theory based on the extended Ehrenfest’s theorem on spin force. The research results will be reported in the leading physics journals, such as Physical Review and Physics Review Letters. |
List of Research Outputs |
Bao
Y. and Shen S.Q.,
Electric-field-induced resonant spin polarization in a two-dimensional
electron gas, Physical Review B. |
He P.B., Sun Q., Li P., Shen S.Q. and Liu W.M., Magnetic
quantum phase transition of cold atoms in an optical lattice, Physical
Review A. |
Jiang Z., Li J., Shen S.Q. and Liu W.M., Spin-filter effect induced by magnetic edge states of zigzag carbon nanotube, Chinese Physics Letters. Chinese Physical Society and IOP Publishing Ltd, 2008, 25: 1431-1434. |
Li
J. and Shen S.Q.,
Spin-current-induced charge accumulation and electric current in
semiconductor nanostructures with Rashba spin-orbit coupling, Physical
Review B (Brief Reports). |
Li P., Su H.B. and Shen S.Q., Kagome antiferromagnet: A
Schwinger-boson mean-field theory study, Physical Review B. |
Liu
C., Zhou B., Shen S.Q. and Zhu B.F.,
Current-induced spin polarization in a two-dimensional hole gas, Physical
Review B. |
Lu H.
and Shen S.Q., Using spin bias
to manipulate and measure spin in quantum dots, Physical Review B. |
Shen
S.Q., Reply to ‘comment on “spin transverse
force on spin current in an electric field”’, Physical Review Letters.
|
Shen
S.Q., Spintronics and spin current, Physics.
|
Sun Q.F., Xing Y.X. and Shen S.Q., Double quantum dot as
detector of spin bias, Physical Review B. |
Zhang F.C. and Shen S.Q., Theory of resonant spin Hall effect, International Journal of Modern Physics B. Singapore, World Scientific, 2008, 22: 94-103. |
Zhou B. and Shen S.Q., Spin transverse force and quantum transverse transport, International Journal of Modern Physics B. Singapore, World Scientific, 2008, 22: 76-81. |
Zhou
B., Liu C.X. and Shen S.Q.,
Topological quantum phase transition and the |
Researcher
: Sheng W |
List of Research Outputs |
Sheng
W., Xu
S.J. and Hawrylak P., Electron g-factor distribution in self-assembled
quantum dots, Physical Review B (Rapid Communications). |
Sheng
W. and Xu
S.J., Optical characterization of structure for semiconductor quantum
dots, Physical Review B (Brief Reports). |
Researcher
: Shi M |
List of Research Outputs |
Shi M., Wang Z., Xie M.H. and Wu H.S., A study of Al1-xInxN growth by reflection high-energy electron diffraction--incorporation of cation atoms during molecular-beam epitaxy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 101902: 1-3. |
Shi M.,
Growth of AlInN and zinc blende GaN by molecular beam epitaxy. Hong
Kong, The |
Researcher
: So CK |
List of Research Outputs |
So C.K.,
Defect study of zinc oxide bulk materials by positron lifetime
spectroscopy . Hong Kong, The |
Researcher
: So WK |
List of Research Outputs |
Wu
H.S., Wang J., So W.K. and Tong D.S.Y., Accurate And Fast
Calculation Of Low Energy Electron Diffractionspectra With Full Crystal
Potential, 13th International Conference On Surface Science . |
Wu H.S., Wang J., So W.K. and Tong S.Y., Multi-slice finite difference method for full potential calculation of low energy electron diffraction spectra, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 386203: 1-8. |
Researcher
: Tam KH |
List of Research Outputs |
Djurisic A., Tam K.H., Cheung C.K., Leung Y.H., Ling F.C.C., Beling C.D., Fung S.H.Y. and Chan W.K., Defect in zinc oxide nanostructures synthesized by a hydrothermal method, In: Z.K. Tang, P. Sheng, Nanoscale Phenomena: Basic Science to Device Applications. Springer, 2008, Chapter 10: 117-130. |
Djurisic
A., Tam K.H., Hsu Y.F., Zhang S., Xie M.H. and Chan W.K., GaN nanowires--influence of
the starting material on nanowire growth, Thin Solid Films. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Hsu
Y.F., Djurisic A., Tam K.H., Cheung K.Y. and Chan W.K., Fabrication and
characterization of ZnO/TiOx nanoscale heterojunctions, Journal
of Crystal Growth. |
Hsu Y.F., Xi Y., Djurisic A., Chan W.K., Yip C.T. and Tam K.H., Hydrothermal growth of periodic ZnO nanorod arrays using polystyrene sphere templates, Proceedings of SPIE. 2007, 6639: 66390I: 1-8. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Ng
M.C.A., Djurisic A., Tam K.H., Cheng K.W., Chan W.K., Tam H.L., Cheah K.W., Lu
A.W., Chan J. and Rakić A.D.,
3,4,9,10-Perylenetetracarboxylicdiimide as an interlayer for ultraviolet
organic light emitting diodes, Optics Communications. |
Ng M.C.A., Djurisic A., Tam K.H., Kwok W.M., Chan W.K., Tam W.Y., Phillips D.L. and Cheah K.W., Organic nanoclusters on inorganic nanostructures for tailoring the emission properties of organic materials, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 566-574. |
Tam K.H., Zinc oxide nanorods: Hydrothermal growth, properties and
applications. Hong Kong, The |
Zhang
S., Tam K.H., Djurisic A. and Hsu Y.F., The influence of source
material composition on morphology and optical properties of ZnO
nanostructures, Journal of Nanoscience and Nanotechnology. |
Researcher
: Tang APS |
List of Research Outputs |
Jia J., Tang A.P.S., Takata J., Chang H.K. and Cheng K.S., The phase-resolved high energy spectrum of the crab pulsar, Advances in Space Research. Amsterdam, Elsevier Ltd., 2007, 40: 1425-1431. |
Tang A.P.S., Takata J., Jia J.J. and Cheng K.S., A revisit of the phase-resolved X-ray and gamma-ray spectra of the crab pulsar, The Astrophysical Journal. The American Astronomical Society, 2008, 676: 562-572. |
Researcher
: Tang PSA |
List of Research Outputs |
Tang P.S.A., The physics of neutron stars. Hong Kong, The |
Researcher
: Tong DSY |
List of Research Outputs |
Wu
H.S., Wang J., So W.K. and Tong D.S.Y., Accurate And Fast
Calculation Of Low Energy Electron Diffractionspectra With Full Crystal
Potential, 13th International Conference On Surface Science . |
List of Research Outputs |
Tong
W.Y., Li Z.X., Djurisic A., Chan W.K. and Yu S.F., Field emission
from copper phthalocyanine and copper hexadecafluorophthalocyanine nanowires,
Materials Letters. |
Researcher
: Tsang HM |
List of Research Outputs |
Tsang H.M., Simulations and software developments for cosmic-ray and
particle physics experiments in underground laboratories. Hong Kong, The |
Researcher
: Wang B |
List of Research Outputs |
Wang B.
and Wang J., Charge relaxation
resistance at atomic scale: An ab initio calculation, Physical Review B.
|
Researcher
: Wang H |
List of Research Outputs |
Pandey A.K., Nunzi J.M., Wang H., Oey C.C., Djurisic A., Xie M.H., Leung Y.H., Man K.K.Y. and Chan W.K., Reverse biased annealing:
Effective post treatment tool for polymer/nano-composite solar cells, Organic
Electronics. |
Wong W.Y., Wang X.Z., He Z., Djurisic A., Yip C.T., Cheung K.Y., Wang H., Mak S.K. and Chan W.K., Metallated conjugated polymers as a new avenue towards high-efficiency polymer solar cells, Nature Materials. Nature Publishing Group, 2007, 6: 521-527. |
Researcher
: Wang J |
Project Title: |
First principle calculation of transport properties of hybrid superconducting nanostructures |
Investigator(s): |
Wang J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2003 |
Abstract: |
To study DC transport through hybrid superconducting nanostructures; to study AC cument through hybrid superconducting nanostructures; to study the shot noise of hybrid superconducting nanostructures. |
Project Title: |
The noise spectrum of spin current |
Investigator(s): |
Wang J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2004 |
Abstract: |
To focus on the shot noise of the spin cument generated by various parametric quantum spin pumps such as these pumps with or without the spin flipping mechanism, with or without strong electron and electron interaction; to explore novel ways of generating spin cument in orderto study the correlation of the spin current. |
Project Title: |
Time dependent transport through molecular devices |
Investigator(s): |
Wang J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
12/2005 |
Abstract: |
The objective of this project is to study the time-dependent current driven by two kinds of ac bias: periodic field and pulse-like aperiodic field, from which one can obtain the information of the response time as well as the dynamical nature of the system. In order to achieve this, one has to solve a general time-dependent transport problem using Keldysh non-equilibrium Green’s function approach combined with the density function theory. |
Project Title: |
Quantum spin transport through nano-devices in the presence of spin-spin interaction |
Investigator(s): |
Wang J |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2006 |
Abstract: |
(1) Recently, considerable interest has been paid to the quantum physics of spin-current. It is believed that a controlled spin-current generation, detection, and usage can provide interesting applications to spintronics. Spin-current generation has been classified as "extrinsic" or "intrinsic". An extrinsic spin-current is generated by external physical factors and driving forces of the spintronics device, such as optical spin injection achieved experimentally and the various spin pumps studied theoretically. An intrinsic spin-current is generated by physical factors existed inside the spintronic device, notable is that generated by various spin-orbit interactions. In particular, it has been theoretically predicted that non-magnetic systems with spin-orbit interaction and under an external electric field, can generate a spin-current flowing perpendicular to the electric field. Such an spin-current is termed "dissipation-less" because the electron motion is perpendicular to the electric field. (2) There are so far extensive theoretical work on spin-current physics, and some experimental works have also appeared which may provide support to some of the theories. Despite the increasing literature on spin-current physics, it is recognized that the definition of spin-current itself is still somewhat controversial. If one mimics the definition of charge-current, then a spin-current can be defined as the quantum average of the time derivative of spin density. In its simplest form at steady state, such a definition gives a spin-current that is equal to the particle current with spin-up subtracted by the particle current with spin-down multiplied by the spin of the electron. Clearly, this is a very intuitive definition of spin-current and is adopted by most of the work in literature. (3) Since both spin and velocity are vectors, the spin-current is a tensor. In systems where there is a spin-orbit interaction, the spin density is not conserved: spins can rotate from their initial orientation due to the interaction. Therefore, spin-current becomes a non-conservative quantity. A quantity which is not conserved is difficulty to study experimentally and indeed, it is unclear what is even measured if an experimental detection method can be found to measure spin-current. Without knowing what is measured, the definition of spin-current becomes non-unique and there have been several definitions in literature. Although it is unclear a priori if a measurable spin-current must be conserved, the property of conservation would be nice to have, at least theoretically. (4) In this project, we will investigate this problem by using the conventional definition of spin-current, but we will include a spin-spin interaction (bascally it is similar to the dipole-dipole interaction) into the Hamiltonian for computing the quantum average. Our preliminary result shows that the spin current obtained in such an analysis is conserved because the spin-spin interaction will generate a new term in the spin current which cancels the non-conserved spin current. Since dipole interactions between spins are possible, including their contribution and consequence of spin-current conservation in such a self-consistent analysis is rather natural. (5) In addition, the conserved spin-current gives a linear spin-conductance, we will develop a phenomenological theory for this spin-conductance for multi-probe device systems so that the spin-conductance is a conserved quantity. In this approach, we will enforce two conditions on the spin current: (1). the spin current must be conserved and (2). the spin current is caused by the external bias and hence depends only on the difference between external bias. With these two conditions, the non-conserved spin current can be partitioned into each electrode similar to the approach of Buttiker in treating ac charge transport. (6) Finally, with this new defintion of spin current developed and new spin-spin interaction introduced, the study of various spin transport properties can be carried on. For instance, we can examine the spin accumulation for a two-terminal device and spin Hall current for a four-terminal device with or without disorder as well as external magnetic field. |
Project Title: |
The spin-Hall conductance fluctuation in the presence of Rashba interaction |
Investigator(s): |
Wang J |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
09/2007 |
Abstract: |
The notion of dissipation-less spin-current has attracted considerable interests recently. In its simplest form, a spin-current is about the flow of spin-up electrons in one direction, say +x, accompanied by the flow of equal number of spin-down electrons in the opposite direction, -x. The total charge current in the x-direction is therefore zero and the total spin-current is finite. For a pure semiconductor system with spin-orbital (SO) interactions, it has been shown that an electric field in the z-direction can induce the flow of a spin-current in the x-direction perpendicular to the electric field: such a spin-current is dissipation-less because the external electric field does no work to the electrons flowing inside the spin-current. If the semiconductor sample has a finite x-extent, the flow of spin-current should cause a spin accumulation at the edges of the sample, resulting to a situation that spin-up electrons accumulate at one edge while spin-down electrons at the opposite edge. Hence a spin-Hall effect is produced where chemical potentials for the two spin channels become different at the two edges of the sample. This interesting phenomenon has been subjected to extensive studies and there are several experiments reporting spin accumulation which may have provided evidence of this effect. It has been shown that for a pure two dimensional (2d) sample without any impurities, the Rashba SO interaction generates a spin-Hall conductivity having universal value. It has also been shown that any presence of weak disorder destroies this spin-Hall effect in the large sample limit. On the other hand, numerical studies have provided evidence that for mesoscopic samples, spin-Hall conductance can survive weak disorder. One of the most striking quantum transport features in mesoscopic regime is the universal charge conductance fluctuation (UCF)\cite{web1,althu,lee85}: quantum interference gives rise to the sample-to-sample fluctuation of charge conductance of order e*e/h, independent of the details of the disorder, Fermi energy, and the sample size as long as transport is in the coherent diffusive regime characterized by the relation between relevant length scales, l<L |
List of Research Outputs |
Feng Z.M., Maciejko J., Wang J. and Guo H., Current
fluctuations in the transient regime: An exact formulation for mesoscopic
systems, Physical Review B. |
Li C.S., Wan L.H., Wei Y.D. and Wang J., Definition of current density in the presence of a non-local potential, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 155401: 1-5. |
Li C.S., Yu Y.J., Wei Y.D. and Wang J., Statistical analysis for
current fluctuations in a disordered quantum pump, Physical Review B. |
Ning Z.Y., Zhu Y., Wang J. and Guo H., Quantitative
analysis of nonequilibrium spin injection into molecular tunnel junctions, Physical
Review Letters. |
Qiao Z. and Wang J., A variant transfer matrix method suitable for transport through multi-probe systems, Nanotechnology. Bristol, IOP Publishing Limited, 2007, 18: 435402: 1-6. |
Sun Q.F., Xie X.C. and Wang J., Persistent spin current in
nanodevices and definition of the spin current, Physical Review B. |
Wang
B. and Wang J., Charge
relaxation resistance at atomic scale: An ab initio calculation, Physical
Review B. |
Wu
H.S., Wang J., So W.K. and Tong D.S.Y., Accurate And Fast
Calculation Of Low Energy Electron Diffractionspectra With Full Crystal
Potential, 13th International Conference On Surface Science . |
Wu H.S., Wang J., So W.K. and Tong S.Y., Multi-slice finite difference method for full potential calculation of low energy electron diffraction spectra, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 386203: 1-8. |
Xing Y.X., Sun Q.F. and Wang J., Response time of a
normal-metal/superconductor hybrid system under a step-like pulse bias, Physical
Review B. |
Yang M., Xu S.J. and Wang J., Influence of capping layer and atomic interdiffusion on the strain distribution in single and double self-assembled InAs/GaAs quantum dots, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 083112: 1-3. |
Zhao H. and Wang J., Multi-photon behaviors of shot noise in a quantum dot system under the perturbation of two microwave fields, The European Physical Journal B. EDP Sciences, 2007, 59: 329-342. |
Researcher
: Wang J |
List of Research Outputs |
Feng Z.M., Maciejko J., Wang J. and Guo H., Current
fluctuations in the transient regime: An exact formulation for mesoscopic
systems, Physical Review B. |
Li C.S., Wan L.H., Wei Y.D. and Wang J., Definition of current density in the presence of a non-local potential, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 155401: 1-5. |
Li C.S., Yu Y.J., Wei Y.D. and Wang J., Statistical analysis for
current fluctuations in a disordered quantum pump, Physical Review B. |
Ning Z.Y., Zhu Y., Wang J. and Guo H., Quantitative
analysis of nonequilibrium spin injection into molecular tunnel junctions, Physical
Review Letters. |
Qiao Z. and Wang J., A variant transfer matrix method suitable for transport through multi-probe systems, Nanotechnology. Bristol, IOP Publishing Limited, 2007, 18: 435402: 1-6. |
Sun Q.F., Xie X.C. and Wang J., Persistent spin current in
nanodevices and definition of the spin current, Physical Review B. |
Wang
B. and Wang J., Charge
relaxation resistance at atomic scale: An ab initio calculation, Physical
Review B. |
Wu
H.S., Wang J., So W.K. and Tong D.S.Y., Accurate And Fast
Calculation Of Low Energy Electron Diffractionspectra With Full Crystal
Potential, 13th International Conference On Surface Science . |
Wu H.S., Wang J., So W.K. and Tong S.Y., Multi-slice finite difference method for full potential calculation of low energy electron diffraction spectra, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 386203: 1-8. |
Xing Y.X., Sun Q.F. and Wang J., Response time of a
normal-metal/superconductor hybrid system under a step-like pulse bias, Physical
Review B. |
Yang M., Xu S.J. and Wang J., Influence of capping layer and atomic interdiffusion on the strain distribution in single and double self-assembled InAs/GaAs quantum dots, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 083112: 1-3. |
Zhao H. and Wang J., Multi-photon behaviors of shot noise in a quantum dot system under the perturbation of two microwave fields, The European Physical Journal B. EDP Sciences, 2007, 59: 329-342. |
Researcher
: Wang L |
List of Research Outputs |
Gao J. and Wang L., Current-induced electroresistance in tetravalent cation-doped La0.9Hf0.1MnO3 epitaxial thin films, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 97-99. |
Hu F., Gao J., Luo Z., Wang L., Sun J.R. and Shen B.G., Abnormal electroresistance effect induced by electric currents in La0.9Ba0.1MnO3 thin films, Materials Science and Engineering B. Amsterdam, Elsevier B.V., 2007, 144: 113-116. |
Wang L.
and Gao J., Strain effect on the
transport properties in low-doped La0.9Hf0.1MnO3 epitaxial
films, Journal of Applied Physics. New York, American Institute of
Physics, 2008, 103: |
Researcher
: Wang Y |
List of Research Outputs |
Wang
Y., Gong
C. and Wang Z.D., Tuning kinetic
magnetism of strongly correlated electrons via a staggered flux, Physical
Review Letters. |
Researcher
: Wang Z |
Project Title: |
Superconductor science and technology |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Matching Fund for National Key Basic Research Development Scheme (973 Projects) |
Start Date: |
02/2002 |
Abstract: |
To carry out investigation on superconductor science and technology. |
Project Title: |
Quantum logic gates based on cyclic geometric phases |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2002 |
Abstract: |
To design a set of quantum logic gates in quantum computing operations with fast running speed based on cyclic geometric phases, which may provide a method to overcome the intrinsic difficulty in adiabatic geometric operations associated with the slow gate speed. |
Project Title: |
Theoretical studies of impurity and vortex states in high temperature superconductors |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2003 |
Abstract: |
To carry out a systematic and detailed study on the mechanism of IRS in high temperature superconductors(HTS) with particular attention being paid to its magnetic-related origin. It is expected that the study of the variation of IRS with the doping content and accordingly the response of the local moments carried/induced by impurities to the anti-ferromagnetic correlations may help us to clarify the origin of the IRS in HTS; to study theoretically (a) the local electronic structure at vortex cores and the vortex charge in the presence of the orbital AF phase(d-density wave) recently proposed to explain the PG state; and (b) the variation of IRS in response to various spin or charge order parameters by pinning vortices on the imputities as the resonance state is very sensitive to the nature of the electronic structure where the impurity is embedded. In terms of our results, we may be able to understand profoundly some existing experimental results as well as to suggest new experiments to test some predictions. |
Project Title: |
Vortex state and impurity effect in newly discovered NaCoO superconductors |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2003 |
Abstract: |
To study theoretically vortex state and impurity effect in the novel superconductors with triangular lattices. |
Project Title: |
Theoretical Studies of NaCoO Superconductors |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To carry out in-depth theoretical studies on the physical quantities related to the low-lying excitation spectrum of this triangular system with emphasis on the effect of disorder to explain profoundly some existing experimental results as well as to suggest new experiments to test some predictions. |
Project Title: |
Interdisciplinary cutting edge research related to condensed matter physics: solid state quantum computing and quantum information processing |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Matching Fund for NSFC Young Researcher Award |
Start Date: |
03/2005 |
Abstract: |
To study interdisciplinary cutting edge research related to condensed matter physics: solid state quantum computing and quantum information processing. |
Project Title: |
Quantum
Computation with |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2005 |
Abstract: |
The main objectives of this project is: (1) To develop feasible schemes to implement fault-tolerant quantum computation with superconducting and quantum-dot qubits respectively, and to compare our method with other approaches. (2) To address multi-qubit entanglement with superconducting qubits inside a cavity. (3) To study the quantum network based on superconducting qubits coupled with cavities. Very recently, a significant step towards the communication of quantum information, coherent coupling of superconducting qubits with electromagnetic modes has been experimentally demonstrated. |
Project Title: |
Exploring Quantum Critical Phenomena in Complex Systems |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
02/2006 |
Abstract: |
Quantum entanglement, a key ingredient in quantum information science that does not have a classical counterpart, has attracted increased research interest dramatically for the past years. Recently, quantum entanglement has also been recognized to play an important role in many-body physics. In particular, it has been found to have certain interesting connection with quantum critical phenomena, which are induced by the change of coupling parameters and occur at the absolute zero temperature, in some lower dimensional correlated many-particle systems. So far, several progresses have been achieved in this field, including our work on revealing transition points in one dimensional spin systems with an entanglement entropy scenario. However, for various complex correlated many-body systems in higher dimension or with randomness, how to explore quantum critical phenomena more efficiently and reliably, which can hardly be dealt with by other methods, has been a fundamental and challenging question for a long time. Therefore, it is both important and timely to develop a systematic and model-independent approach for revealing the links between quantum entanglement entropy and quantum critical phenomena, and then to apply it for exploring in depth quantum phase transitions in a variety of correlated systems. In this seed fund project, we shall focus on the following objectives. (1) We plan to develop an efficient general approach for identifying quantum critical points in a wide class of complex correlated systems. We attempt to choose an appropriate entanglement measure to reflect the non-local nature of quantum critical phenomena in correlated lattices. This measure is designed to be an extensive quantity, like the thermal entropy in classical phase transitions, and its variation as functions of coupling parameters will be analyzed carefully, so that a clear connection between its features and quantum critical phenomena can be revealed readily. (2) We intend to investigate some realistic lattice models with randomness or doping, which can hardly be dealt with by other existing methods. Since the present entanglement scenario is expected to better capture the non-local feature of quantum critical phenomena in correlated systems, the size effect in numerical analyses is unimportant, making it be powerful and promising for the future exploration of quantum critical phenomena. It is expected that several initial but significant results/findings will be obtained with international attentions, enabling us to attract successfully external grants to conduct further in-depth research in the exploration of quantum critical phenomena. |
Project Title: |
Quantum entanglement and quantum phase transitions in correlated systems |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2006 |
Abstract: |
(1) We plan to develop an efficient general approach for identifying and classifying quantum phase transition points in a wide class of strongly correlated systems. We attempt to choose an appropriate entanglement measure to reflect the non-local nature of quantum critical phenomena in correlated lattices. This measure is designed to be an extensive quantity, like the thermal entropy in classical phase transitions, and its variation as functions of coupling parameters will be analyzed carefully, so that a clear connection between its features and quantum phase transitions may be revealed readily. (2) We intend to establish the reliability of our approach by applying it to a number of well-studied systems and comparing with the well-accepted existing results. We then employ the approach to disclose more reliable quantum phase diagrams of several representative correlated models where some results obtained by other methods are still debatable. (3) We attempt to investigate some realistic lattice models with randomness or doping, which can hardly be dealt with by other existing methods. Since the present entanglement scenario is expected to better capture the non-local feature of quantum phase transitions in correlated systems, the size effect in numerical analyses is unimportant, making it be powerful and promising for the future exploration of quantum critical phenomena. It is anticipated that several notable results will be obtained with international attentions, making a timely and significant contribution to the interdisciplinary field of quantum information and correlated many-body physics. |
Project Title: |
Exploring New Fault Tolerant Quantum Computation Strategies |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
04/2007 |
Abstract: |
Quantum computation has been attracting more and more interests for the past decade because quantum computers can do powerfully many tasks that are intractable for classical computers. Although significant progresses have been achieved, there are still many challenges in physical implementation of quantum computation. To suppress the errors of quantum logic gates is one of them, and is essential to make workable quantum computers. Recently, several promising schemes based on the geometric phases and the topological orders were proposed. In this project, we attempt to achieve the following objectives. (i) We intend to develop for the first time a more efficient but simple adiabatic Abelian geometric quantum computation scheme and to elaborate how to implement this new scheme in several physical systems. (ii) Based on our recent theory for the geometric phase of invariant operators, we attempt to design a universal set of geometric quantum gates. Physical implementation will also be addressed. (iii) We plan to develop a new kind of topological quantum computation strategy, which is expected to be more robust against the errors and has a great potential to increase significantly the fidelity of quantum logic gates. |
List of Research Outputs |
Shi M., Wang Z., Xie M.H. and Wu H.S., A study of Al1-xInxN growth by reflection high-energy electron diffraction--incorporation of cation atoms during molecular-beam epitaxy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 101902: 1-3. |
Wang
Z., Yu G.L., Nie Y., Wu Z.F., Qiu L., Luo Z. and Gao J., Effect of applied magnetic field
on the rectifying characteristics in self-doped La0.9MnO3/0.8 wt
%Nb-SrTiO3 heteroepitaxial junctions, Journal of Applied Physics. New
York, American Institute of Physics, 2008, 103: |
Wu Z.F., Wang Z., Bai Z., Li P.J., Tian H.,
Qiu L., Wu X.S., Chen Y.W. and Gao J.,
Oxygenation-induced two peaks in the self-doped La0.9MnO3+d
compounds, Journal of Magnetism and Magnetic Materials. |
Researcher
: Wang Z |
List of Research Outputs |
Shi M., Wang Z., Xie M.H. and Wu H.S., A study of Al1-xInxN growth by reflection high-energy electron diffraction--incorporation of cation atoms during molecular-beam epitaxy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 101902: 1-3. |
Wang
Z., Yu G.L., Nie Y., Wu Z.F., Qiu L., Luo Z. and Gao J., Effect of applied magnetic field
on the rectifying characteristics in self-doped La0.9MnO3/0.8 wt
%Nb-SrTiO3 heteroepitaxial junctions, Journal of Applied Physics. New
York, American Institute of Physics, 2008, 103: |
Wu Z.F., Wang Z., Bai Z., Li P.J., Tian H.,
Qiu L., Wu X.S., Chen Y.W. and Gao J.,
Oxygenation-induced two peaks in the self-doped La0.9MnO3+d
compounds, Journal of Magnetism and Magnetic Materials. |
Researcher
: Wang Z |
List of Research Outputs |
Shi M., Wang Z., Xie M.H. and Wu H.S., A study of Al1-xInxN growth by reflection high-energy electron diffraction--incorporation of cation atoms during molecular-beam epitaxy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 101902: 1-3. |
Wang
Z., Yu G.L., Nie Y., Wu Z.F., Qiu L., Luo Z. and Gao J., Effect of applied magnetic field
on the rectifying characteristics in self-doped La0.9MnO3/0.8 wt
%Nb-SrTiO3 heteroepitaxial junctions, Journal of Applied Physics. New
York, American Institute of Physics, 2008, 103: |
Wu Z.F., Wang Z., Bai Z., Li P.J., Tian H.,
Qiu L., Wu X.S., Chen Y.W. and Gao J.,
Oxygenation-induced two peaks in the self-doped La0.9MnO3+d
compounds, Journal of Magnetism and Magnetic Materials. |
Researcher
: Wang ZD |
Project Title: |
Superconductor science and technology |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Matching Fund for National Key Basic Research Development Scheme (973 Projects) |
Start Date: |
02/2002 |
Abstract: |
To carry out investigation on superconductor science and technology. |
Project Title: |
Quantum logic gates based on cyclic geometric phases |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2002 |
Abstract: |
To design a set of quantum logic gates in quantum computing operations with fast running speed based on cyclic geometric phases, which may provide a method to overcome the intrinsic difficulty in adiabatic geometric operations associated with the slow gate speed. |
Project Title: |
Theoretical studies of impurity and vortex states in high temperature superconductors |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2003 |
Abstract: |
To carry out a systematic and detailed study on the mechanism of IRS in high temperature superconductors(HTS) with particular attention being paid to its magnetic-related origin. It is expected that the study of the variation of IRS with the doping content and accordingly the response of the local moments carried/induced by impurities to the anti-ferromagnetic correlations may help us to clarify the origin of the IRS in HTS; to study theoretically (a) the local electronic structure at vortex cores and the vortex charge in the presence of the orbital AF phase(d-density wave) recently proposed to explain the PG state; and (b) the variation of IRS in response to various spin or charge order parameters by pinning vortices on the imputities as the resonance state is very sensitive to the nature of the electronic structure where the impurity is embedded. In terms of our results, we may be able to understand profoundly some existing experimental results as well as to suggest new experiments to test some predictions. |
Project Title: |
Vortex state and impurity effect in newly discovered NaCoO superconductors |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
11/2003 |
Abstract: |
To study theoretically vortex state and impurity effect in the novel superconductors with triangular lattices. |
Project Title: |
Theoretical Studies of NaCoO Superconductors |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To carry out in-depth theoretical studies on the physical quantities related to the low-lying excitation spectrum of this triangular system with emphasis on the effect of disorder to explain profoundly some existing experimental results as well as to suggest new experiments to test some predictions. |
Project Title: |
Interdisciplinary cutting edge research related to condensed matter physics: solid state quantum computing and quantum information processing |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Matching Fund for NSFC Young Researcher Award |
Start Date: |
03/2005 |
Abstract: |
To study interdisciplinary cutting edge research related to condensed matter physics: solid state quantum computing and quantum information processing. |
Project Title: |
Quantum
Computation with |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2005 |
Abstract: |
The main objectives of this project is: (1) To develop feasible schemes to implement fault-tolerant quantum computation with superconducting and quantum-dot qubits respectively, and to compare our method with other approaches. (2) To address multi-qubit entanglement with superconducting qubits inside a cavity. (3) To study the quantum network based on superconducting qubits coupled with cavities. Very recently, a significant step towards the communication of quantum information, coherent coupling of superconducting qubits with electromagnetic modes has been experimentally demonstrated. |
Project Title: |
Exploring Quantum Critical Phenomena in Complex Systems |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
02/2006 |
Abstract: |
Quantum entanglement, a key ingredient in quantum information science that does not have a classical counterpart, has attracted increased research interest dramatically for the past years. Recently, quantum entanglement has also been recognized to play an important role in many-body physics. In particular, it has been found to have certain interesting connection with quantum critical phenomena, which are induced by the change of coupling parameters and occur at the absolute zero temperature, in some lower dimensional correlated many-particle systems. So far, several progresses have been achieved in this field, including our work on revealing transition points in one dimensional spin systems with an entanglement entropy scenario. However, for various complex correlated many-body systems in higher dimension or with randomness, how to explore quantum critical phenomena more efficiently and reliably, which can hardly be dealt with by other methods, has been a fundamental and challenging question for a long time. Therefore, it is both important and timely to develop a systematic and model-independent approach for revealing the links between quantum entanglement entropy and quantum critical phenomena, and then to apply it for exploring in depth quantum phase transitions in a variety of correlated systems. In this seed fund project, we shall focus on the following objectives. (1) We plan to develop an efficient general approach for identifying quantum critical points in a wide class of complex correlated systems. We attempt to choose an appropriate entanglement measure to reflect the non-local nature of quantum critical phenomena in correlated lattices. This measure is designed to be an extensive quantity, like the thermal entropy in classical phase transitions, and its variation as functions of coupling parameters will be analyzed carefully, so that a clear connection between its features and quantum critical phenomena can be revealed readily. (2) We intend to investigate some realistic lattice models with randomness or doping, which can hardly be dealt with by other existing methods. Since the present entanglement scenario is expected to better capture the non-local feature of quantum critical phenomena in correlated systems, the size effect in numerical analyses is unimportant, making it be powerful and promising for the future exploration of quantum critical phenomena. It is expected that several initial but significant results/findings will be obtained with international attentions, enabling us to attract successfully external grants to conduct further in-depth research in the exploration of quantum critical phenomena. |
Project Title: |
Quantum entanglement and quantum phase transitions in correlated systems |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2006 |
Abstract: |
(1) We plan to develop an efficient general approach for identifying and classifying quantum phase transition points in a wide class of strongly correlated systems. We attempt to choose an appropriate entanglement measure to reflect the non-local nature of quantum critical phenomena in correlated lattices. This measure is designed to be an extensive quantity, like the thermal entropy in classical phase transitions, and its variation as functions of coupling parameters will be analyzed carefully, so that a clear connection between its features and quantum phase transitions may be revealed readily. (2) We intend to establish the reliability of our approach by applying it to a number of well-studied systems and comparing with the well-accepted existing results. We then employ the approach to disclose more reliable quantum phase diagrams of several representative correlated models where some results obtained by other methods are still debatable. (3) We attempt to investigate some realistic lattice models with randomness or doping, which can hardly be dealt with by other existing methods. Since the present entanglement scenario is expected to better capture the non-local feature of quantum phase transitions in correlated systems, the size effect in numerical analyses is unimportant, making it be powerful and promising for the future exploration of quantum critical phenomena. It is anticipated that several notable results will be obtained with international attentions, making a timely and significant contribution to the interdisciplinary field of quantum information and correlated many-body physics. |
Project Title: |
Exploring New Fault Tolerant Quantum Computation Strategies |
Investigator(s): |
Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
04/2007 |
Abstract: |
Quantum computation has been attracting more and more interests for the past decade because quantum computers can do powerfully many tasks that are intractable for classical computers. Although significant progresses have been achieved, there are still many challenges in physical implementation of quantum computation. To suppress the errors of quantum logic gates is one of them, and is essential to make workable quantum computers. Recently, several promising schemes based on the geometric phases and the topological orders were proposed. In this project, we attempt to achieve the following objectives. (i) We intend to develop for the first time a more efficient but simple adiabatic Abelian geometric quantum computation scheme and to elaborate how to implement this new scheme in several physical systems. (ii) Based on our recent theory for the geometric phase of invariant operators, we attempt to design a universal set of geometric quantum gates. Physical implementation will also be addressed. (iii) We plan to develop a new kind of topological quantum computation strategy, which is expected to be more robust against the errors and has a great potential to increase significantly the fidelity of quantum logic gates. |
List of Research Outputs |
Bai
Y. and Wang Z.D.,
Multipartite entanglement in four-qubit cluster-class states, Physical
Review A. |
Bai
Y., Yang D. and Wang Z.D., Multipartite quantum correlation
and entanglement in four-qubit pure states, Physical Review A. |
Cen L. and Wang Z.D., Spatial reflection and renormalization group flow of quantum many-body systems with matrix product state representation, Europhysics Letters. EPLA, 2008, 82: 40003: 1-5. |
Han Q., Chen Y. and Wang Z.D., A generic two-band model for unconventional superconductivity and spin-density-wave order in electron- and hole-doped iron-based superconductors, Europhysics Letters. EPLA, 2008, 82: 37007: 1-6. |
Quan
H., Wang Z.D. and Sun
C.P., Quantum critical dynamics of a qubit coupled to an isotropic
Lipkin-Meshkov-Glick bath, Physical Review A. |
Wang
Y., Gong C. and Wang Z.D., Tuning kinetic magnetism
of strongly correlated electrons via a staggered flux, Physical Review
Letters. |
Wang
Z.D., |
Wang Z.D., Exotic Superfluidity of Polarized Ultracold Fermions in Optical Lattices, Conference on Physics in Correlated Systems and Related Topics. 2007. |
Wang Z.D., Exotic superfluidity of polarized ultracold fermions in optical lattices , Bilateral workshop between IOP-Taipei and IOP-Beijing. 2008. |
Wang
Z.D., Exploring Exotic Superfluidity of
Polarized Ultracold Fermions in Optical Lattices , |
Wang Z.D., Physical Implementation of Topologically Protected Superconducting Qubits , The 2007 Annual Meeting of Chinese Physical Society. 2007. |
Xue
Z., Wang Z.D. and Zhu
S.L., Physical implementation of topologically decoherence-protected
superconducting qubits, Physical Review A (Brief Reports). |
Yao
Z., Li J.X. and Wang Z.D.,
Band structure renormalization and weak pseudogap behavior in Na0.33CoO2:
Fluctuation exchange study based on a single-band model, Physical Review B
(Brief Reports). |
Zhang X.D., Wang Z.D., Hu L.B., Zhang Z.M. and Zhu S., Detecting unambiguously non-Abelian geometric phases with trapped ions, New Journal of Physics. IOP Publishing Limited, 2008, 10: 043031: 1-10. |
Zhou
T. and Wang Z.D.,
Phenomenological theory of spin excitations in La- and Y-based cuprates, Physical
Review B. |
Researcher
: Wong CY |
List of Research Outputs |
Wong C.Y., Electronic characterization of individual single-walled
carbon nanotubes. Hong Kong, The |
Researcher
: Wong HCH |
List of Research Outputs |
Wong H.C.H., Studies of the optical properties and the calibration of
neutron detectors in underground laboratories. Hong Kong, The |
Researcher
: Wong KC |
List of Research Outputs |
Harko T.C., Choi W.F., Wong K.C. and Cheng K.S., Reheating the Universe in braneworld cosmological models with bulk-brane energy transfer, Journal of Cosmology and Astroparticle Physics. IOP Publishing Ltd and SISSA, 2008, 002: 1-24. |
Researcher
: Wong YL |
List of Research Outputs |
Wong Y.L., Transient radiation emission from astrophysical jets.
Hong Kong, The |
Researcher
: Wu HS |
Project Title: |
Reference-selective holographic inversion of LEED spectra: a novel method to determine the final atomic structure model |
Investigator(s): |
Wu HS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
12/2002 |
Abstract: |
The goal of this project is to fully explore the advantages of the direct inversions of LEED spectra and to determine the atomic structures of several interesting systems. |
Project Title: |
Investigation of pure cubic GaN film growth on SiC(0001) substrate |
Investigator(s): |
Wu HS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
12/2003 |
Abstract: |
To investigate (1) surface structures of 6H-Sic(0001) surfaces; (2) the interface structures of GaN films/GH SiC(0001); (3) the surface structures of GaN films; (4) the growth condition dependence of the critical thickness of GaN film; (5) the driving force for cubic film growth and inversion from cubic to hexagonal; (6)the possible ways to control the critical thickness of cubic GaN film. |
Project Title: |
Surface atomic structure extraction from low energy electron diffraction patterson function |
Investigator(s): |
Wu HS |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
09/2004 |
Abstract: |
A new method named structure extraction from LEED PF is fully implementing by correctly addressing the two issues; (1) a complex system often has PF spots overlap or missing, which makes structure extraction much harder; (2) real systems often have two domains or even more domains in the surface structure, which also makes structure extraction more complicated. |
Project Title: |
Surface Atomic structure completion from LEED Patterson Function |
Investigator(s): |
Wu HS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To figure out a way to deal with unclear or unseen PF spots; to develop an approach to solve the multi-domain problems; to put the modifications into the existing computer program; to test the completed program with more samples; to apply this new method to number of interesting samples to determine their surface atomic structures. |
Project Title: |
Construct atomic structure models of surfaces with multiple structure phases and disordered over layers by using Low Energy Electron Diffraction Patterson Function |
Investigator(s): |
Wu HS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2006 |
Abstract: |
To determine surface structures of
several GaN films and |
List of Research Outputs |
Hong K., Xie M.H., Hu R. and Wu H.S., Diameter control of tungsten oxide nanowires as grown by thermal evaporation, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 085604: 1-5. |
Liu Y., Cai Y., Zhang L.X., Xie M.H., Wang N., Zhang S.B. and Wu H.S., Dislocation network at InN/GaN interface revealed by scanning tunneling microscopy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 231907: 1-3. |
Shi M., Wang Z., Xie M.H. and Wu H.S., A study of Al1-xInxN growth by reflection high-energy electron diffraction--incorporation of cation atoms during molecular-beam epitaxy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 101902: 1-3. |
Wu
H.S., Wang
J., So W.K. and Tong D.S.Y., Accurate And Fast
Calculation Of Low Energy Electron Diffractionspectra With Full Crystal
Potential, 13th International Conference On Surface Science . |
Wu H.S., Wang J., So W.K. and Tong S.Y., Multi-slice finite difference method for full potential calculation of low energy electron diffraction spectra, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2007, 19: 386203: 1-8. |
Zheng
H., Xie M.H., Wu H.S. and Xue Q.K., Kinetic energy
barriers on the GaN(0001) surface: A nucleation study by scanning tunneling
microscopy, Physical Review B. |
Researcher
: Wu X |
List of Research Outputs |
Gao J., Fu E., Luo Z., Wu X. and Yang J., Superconductivity and crystallinity in epitaxial thin films of YBa2Cu3Oy grown on Eu2CuO4/YSZ double buffered silicon, International Journal of Modern Physics B. World Scientific Pub., 2007, 21: 3263-3265. |
Zhang Y.M., Wu X., Ji Q., Weng Y.Y., Gao J., Tan W.S. and Zhai Y.,
Grain-boundary effects on magnetotransport properties in La2/3Ca1/3MnO3/YBa1.8Eu0.2Cu3O7
multilayers, Journal of Applied Physics. New York, American Institute
of Physics, 2008, 103: |
Researcher
: Xi Y |
List of Research Outputs |
Brauer G., Anwand W., Skorupa W., Beynik I., Teichert C., Hsu Y.F., Xi Y., Zhu C., Ling F.C.C. and Djurisic A., Non-destructive characterization of vertical ZnO nanorod arrays by slow positron implantation spectroscopy, atomic force microscopy, and photoluminescence, 9th International Workshop on Positron and Positronium Chemistry, Wuhan University, China, May 11-15, 2008. 46. |
Hsu Y.F., Xi Y., Yip C.T., Djurisic A. and Chan W.K., Dye-sensitized solar cells using ZnO tetrapods, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 083114: 1-4. |
Hsu Y.F., Xi Y., Djurisic A., Chan W.K., Yip C.T. and Tam K.H., Hydrothermal growth of periodic ZnO nanorod arrays using polystyrene sphere templates, Proceedings of SPIE. 2007, 6639: 66390I: 1-8. |
Hsu Y.F., Xi Y., Tam K.H., Djurisic A., Luo J., Ling F.C.C., Cheung C.K., Ng M.C.A., Chan W.K., Deng X., Beling C.D., Fung S.H.Y., Cheah K.W., Fong P.W.K. and Surya C.C., Undoped p-type ZnO nanorods synthesized by a hydrothermal method, Advanced Functional Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2008, 18: 1020-1030. |
Hsu Y.F., Xi Y., Djurisic A. and Chan W.K., ZnO nanorods for solar cells: Hydrothermal growth versus vapor deposition, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 133507: 1-3. |
Wong W.Y., Wang X.Z., He Z., Chan K.K., Djurisic A., Cheung K.Y., Yip C.T., Ng M.C.A., Xi Y., Mak S.K. and Chan W.K., Tuning the absorption, charge transport properties, and solar cell efficiency with the number of thienyl rings in platinum-containing poly(aryleneethynylene)s, Journal of the American Chemical Society. American Chemical Society, 2007, 129: 14372-14380. |
Xi Y., Li D., Djurisic A., Xie M.H., Man K.K.Y. and Chan W.K., Hydrothermal synthesis vs electrodeposition for high specific capacitance nanostructured NiO films, Electrochemical and Solid-State Letters. The Electrochemical Society, 2008, 11: D56-D59. |
Xi Y., Hsu Y.F., Djurisic A., Ng M.C.A., Chan W.K., Tam H.L. and Cheah K.W., NiO/ZnO light emitting diodes by solution-based growth, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 113505: 1-3. |
Researcher
: Xie MH |
Project Title: |
Structural phase transition of InGaN epi-film during growth on (0001) surface by plasma-assisted molecular-beam epitaxy |
Investigator(s): |
Xie MH, Wu HS |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2004 |
Abstract: |
To investigate the structural phases of epitaxial InN and GaN films; to examine the possible dependence of crystal structure of the epi-film on the MBE condition; to investigate the physical origin of such a growth phenomenon. |
Project Title: |
Anomalous temperature dependence of the growth mode and strain in InN/GaN during molecular-beam epitaxy |
Investigator(s): |
Xie MH |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2005 |
Abstract: |
The project aims at understanding the
followings: 1. Alloying between |
Project Title: |
Growth and properties of AlInN thin films |
Investigator(s): |
Xie MH |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2006 |
Abstract: |
(1) There exists a large miscibility gap in AlInN alloy and so it is difficult to grow AlInN with arbitrary alloy composition. In this project, the incorporation kinetics of the constituent Al and In elements will be studied. Equipped with such a knowledge, alloys with wide composition ranges will be explored. (2) AlInN grown on GaN represents a unique heteroepitaxial system where the strain can be tuned between compressive and tensile states by changing the alloy composition. Here, an investigation of heteroepitaxial growth mode and the strain effect will be carried out. (3) Finally, characterizations of AlInN epilayers will be conducted for their structural and other physical properties. |
List of Research Outputs |
Dai X.Q., Yan H.J., Wang J.L., Liu Y.M., Yang Z.X. and Xie M.H., The effect of Cu on O adsorption on a ZnO(0001) surface: A first-principles study, Journal of Physics: Condensed Matter. Bristol, IOP Publishing Limited, 2008, 20: 095002: 1-4. |
Djurisic
A., Tam K.H., Hsu Y.F., Zhang S., Xie M.H. and Chan W.K., GaN nanowires--influence of
the starting material on nanowire growth, Thin Solid Films. |
Hong K., Xie M.H., Hu R. and Wu H.S., Diameter control of tungsten oxide nanowires as grown by thermal evaporation, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 085604: 1-5. |
Leung Y.H., Djurisic A., Liu Z., Li D., Xie M.H. and Chan W.K., Defect photoluminescence of ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 353-357. |
Li D., Liu Z., Leung Y.H., Djurisic A., Xie M.H. and Chan W.K., Transition metal-doped ZnO nanorods synthesized by chemical methods, Journal of Physics and Chemistry of Solids. Amsterdam, Elsevier Ltd., 2008, 69: 616-619. |
Liu Y., Cai Y., Zhang L.X., Xie M.H., Wang N., Zhang S.B. and Wu H.S., Dislocation network at InN/GaN interface revealed by scanning tunneling microscopy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 231907: 1-3. |
Pandey A.K., Nunzi J.M., Wang H., Oey C.C., Djurisic A., Xie M.H., Leung Y.H., Man K.K.Y. and Chan W.K., Reverse biased annealing:
Effective post treatment tool for polymer/nano-composite solar cells, Organic
Electronics. |
Shi M., Wang Z., Xie M.H. and Wu H.S., A study of Al1-xInxN growth by reflection high-energy electron diffraction--incorporation of cation atoms during molecular-beam epitaxy, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 101902: 1-3. |
Xi Y., Li D., Djurisic A., Xie M.H., Man K.K.Y. and Chan W.K., Hydrothermal synthesis vs electrodeposition for high specific capacitance nanostructured NiO films, Electrochemical and Solid-State Letters. The Electrochemical Society, 2008, 11: D56-D59. |
Xie
M.H., Editor Board Member, International
Journal Of Nanotechnology And Applications. Research |
Xie
M.H., Energy barriers of adatom kinetics on
GaN(0001) surface: a strudy by scanning tunneling microscopy, 3rd
International Conference on Spectroscopy and Nanostructured Materials and
Thin Films, |
Xie
M.H., Surface kinetic barriers of GaN(0001)
growth, 7th National Conference on molecular-beam epitaxy, |
Zhang S., Djurisic A., Hsu Y.F., Ng M.C.A. and Xie M.H., Influence of different insulating polymers on the performance of ZnO nanorod based LEDs, Proceedings of SPIE. 2008, 6988: 69881O: 1-8. |
Zheng
H., Xie M.H., Wu H.S. and Xue Q.K., Kinetic energy
barriers on the GaN(0001) surface: A nucleation study by scanning tunneling
microscopy, Physical Review B. |
Researcher
: Xu S |
Project Title: |
Comprehensive spectroscopy investigations of blue and green InGaN/GaN light-emitting diode structures with multi-quantum-wells |
Investigator(s): |
Xu SJ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2003 |
Abstract: |
The main objective of this project is to understand the luminescence mechanism in the InGaN/GaN LEDs with quantum wells (QWs). |
Project Title: |
Optical Properties and Electronic Structures of InGaAs/GaAs Self-Assembled Quantum Dots with High Sheet Density |
Investigator(s): |
Xu SJ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To gain understanding of the optical properties and electronic structures of high sheet density InGaAs/GaAs self-assembled quantum dots (QDs) through detailed experimental and theoretical investigations. |
Project Title: |
Multi-photon-excited photoluminescence and dynamic processes of photogenerated carriers in high-quality zinc oxide bulk crystals and nanostructures |
Investigator(s): |
Xu SJ, Zhao Y |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2006 |
Abstract: |
Thanks to ZnO's large exciton binding
energy and potential applications in optoelectronic devices, considerable
interest has risen recently on stimulated emission in ZnO thin films and
nanostructures at room temperature. Exploitation of optoelectronic
applications of ZnO requires a good understanding of various optical
processes in ZnO thin films and nanostructures including ultrafast carrier
dynamics. At present, very little is known about the
multi-photon-absorption-induced luminescence and related issues such as
carrier dynamics and the role of exciton-phonon interactions in ZnO. The
proposed project aims at understanding mechanisms underlying
multi-photon-excited photoluminescence in high-quality ZnO bulk crystals and
nanostructures. Following outcomes are to be anticipated from the proposed
studies: (1) Enhanced understanding of up-conversion photoluminescence in
wide-gap polar semiconductors and related nanostructures. Determination of characteristic decay times of various
luminescence lines of ZnO under excitations of intense femtosecond
near-infrared laser employing accurate time-resolved PL techniques. Improved knowledge on exciton-phonon interactions and their role
in the luminescence processes in polar semiconductors with strong
exciton-phonon coupling. Elucidating the role of
deep centers in multi-photon excited luminescence processes in wide-gap
semiconductors. (2) ZnO in its bulk and nanostructure forms has recently
demonstrated great potentials in applications in novel exciton-type
optoelectronic devices. As a consequence, up-conversion luminescence in ZnO
induced by multi-photon absorption is of particular interest and
significance. Detailed investigations of up-conversion luminescence and
carrier dynamics in ZnO employing state-of-the-art laser spectroscopic
techniques will provide a wealth of knowledge both on fundamental physics and
for design and fabrication of innovative optoelectronic devices. We have previously
reported what is believed to be the first. (3) observation of intense
up-conversion luminescence in bulk ZnO at room temperature in Optics Letters.
Building up on the exciting preliminary work, the proposed studies here will
expand and deepen our knowledge base in semiconductor photophysics in general
and up-conversion photoluminescence of ZnO in particular. Research efforts as
proposed here not only help keep Hong Kong at the cutting edge of
technological innovations that produce novel optoelectronic devices, but also
benefit the Territory by training local graduate students and establishing
scientific collaborations with leading experts globally. All these will
enhance the international competitive profile of |
Researcher
: Xu SJ |
Project Title: |
Comprehensive spectroscopy investigations of blue and green InGaN/GaN light-emitting diode structures with multi-quantum-wells |
Investigator(s): |
Xu SJ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
09/2003 |
Abstract: |
The main objective of this project is to understand the luminescence mechanism in the InGaN/GaN LEDs with quantum wells (QWs). |
Project Title: |
Optical Properties and Electronic Structures of InGaAs/GaAs Self-Assembled Quantum Dots with High Sheet Density |
Investigator(s): |
Xu SJ |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To gain understanding of the optical properties and electronic structures of high sheet density InGaAs/GaAs self-assembled quantum dots (QDs) through detailed experimental and theoretical investigations. |
Project Title: |
Multi-photon-excited photoluminescence and dynamic processes of photogenerated carriers in high-quality zinc oxide bulk crystals and nanostructures |
Investigator(s): |
Xu SJ, Zhao Y |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
07/2006 |
Abstract: |
Thanks to ZnO's large exciton binding
energy and potential applications in optoelectronic devices, considerable
interest has risen recently on stimulated emission in ZnO thin films and
nanostructures at room temperature. Exploitation of optoelectronic
applications of ZnO requires a good understanding of various optical
processes in ZnO thin films and nanostructures including ultrafast carrier
dynamics. At present, very little is known about the
multi-photon-absorption-induced luminescence and related issues such as carrier
dynamics and the role of exciton-phonon interactions in ZnO. The proposed
project aims at understanding mechanisms underlying multi-photon-excited
photoluminescence in high-quality ZnO bulk crystals and nanostructures.
Following outcomes are to be anticipated from the proposed studies: (1)
Enhanced understanding of up-conversion photoluminescence in wide-gap polar
semiconductors and related nanostructures.
Determination of characteristic decay times of various luminescence lines of
ZnO under excitations of intense femtosecond near-infrared laser employing
accurate time-resolved PL techniques. Improved
knowledge on exciton-phonon interactions and their role in the luminescence
processes in polar semiconductors with strong exciton-phonon coupling. Elucidating the role of deep centers in multi-photon excited
luminescence processes in wide-gap semiconductors. (2) ZnO in its bulk and
nanostructure forms has recently demonstrated great potentials in
applications in novel exciton-type optoelectronic devices. As a consequence,
up-conversion luminescence in ZnO induced by multi-photon absorption is of
particular interest and significance. Detailed investigations of
up-conversion luminescence and carrier dynamics in ZnO employing
state-of-the-art laser spectroscopic techniques will provide a wealth of
knowledge both on fundamental physics and for design and fabrication of
innovative optoelectronic devices. We have previously reported what is
believed to be the first. (3) observation of intense up-conversion
luminescence in bulk ZnO at room temperature in Optics Letters. Building up
on the exciting preliminary work, the proposed studies here will expand and
deepen our knowledge base in semiconductor photophysics in general and
up-conversion photoluminescence of ZnO in particular. Research efforts as
proposed here not only help keep Hong Kong at the cutting edge of
technological innovations that produce novel optoelectronic devices, but also
benefit the Territory by training local graduate students and establishing
scientific collaborations with leading experts globally. All these will
enhance the international competitive profile of |
List of Research Outputs |
Dai X., Xu S.J., Gu Q. and Ling F.C.C., Photoluminescence Characterization of Defects in Nitrogen-Implanted and Thermally Annealed ZnO, 2007 MRS Fall Meeting. 2007. |
Gu
Q., Ling F.C.C., Cheung C.K., Dai X., Xu S.J., Tam K.H., Djurisic A., Wang R.S., Ong H.C., Brauer
G., Anwand W. and Skorupa W., Defect study in zinc oxide related structures –
Electrical and optical characterization, MRS International Materials
Research Conference, June 9-12, 2008. |
Gu
Q., Dai X., Ling F.C.C., Xu S.J., Lu L., Brauer G., Anwand W. and Skorupa
W., Electrical characterization of N+-implanted n-type ZnO
single crystal: ZnO p-n homojunction and deep level defects, MRS 2007 Fall
Meeting, |
Ling F.C.C., Cheung C.K., Gu Q., Dai X., Luo J., Xu S.J., Beling C.D., Fung S.H.Y., Lu L., Brauer G., Anwand W. and Skorupa W., Defect study in ZnO related structures- a multi-spectroscopic approach, Eleventh International Workshop on Slow Positron Beam Techniques for Solids and Surfaces, Orléans, France, July 9-13, 2007. 2007, 21. |
Ning
J., Xu S.J., Yu D.P., Shan
Y.Y. and Lee S.T., |
Sheng
W., Xu S.J. and Hawrylak
P., Electron g-factor distribution in self-assembled quantum dots, Physical
Review B (Rapid Communications). |
Sheng
W. and Xu S.J., Optical
characterization of structure for semiconductor quantum dots, Physical
Review B (Brief Reports). |
Xu
S.J., Editorial Advisory Board Member, The
Open Condensed Matter Physics Journal. |
Xu S.J., Exciton-biexciton Dynamics In InGaAs Quantum Wells Studied By Time-resolved Kerr Rotation Spectroscopy, The 23rd Progress In Electromagnetics Research Symposium (PIERS) 2008. 2008. |
Xu S.J., Two-Photon Photoluminescence of InGaN/GaN Multiple Quantum Wells, International Conference on Materials for Advanced Technologies 2007. 2007. |
Yan B., Cheung C.C., Kui C.F., Xiang H., Vellaisamy A.L.R., Xu S.J. and Che C.M., Efficient white organic light-emitting devices based on phosphorescent platinum(II)/fluorescent dual-emitting layers, Advanced Materials. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 19: 3599-3603. |
Yan B., Cheung C.C., Kui C.F., Vellaisamy A.L.R., Che C.M. and Xu S.J., High-efficiency orange and yellow organic light-emitting devices using platinum(II) complexes containing extended π-conjugated cyclometalated ligands as dopant materials, Applied Physics Letters. New York, American Institute of Physics, 2007, 91: 063508: 1-3. |
Yang M., Xu S.J. and Wang J., Influence of capping layer and atomic interdiffusion on the strain distribution in single and double self-assembled InAs/GaAs quantum dots, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 083112: 1-3. |
Researcher
: Xue Z |
List of Research Outputs |
Xue Z.,
Wang Z.D. and Zhu S.L., Physical
implementation of topologically decoherence-protected superconducting qubits,
Physical Review A (Brief Reports). |
Researcher
: Yang C |
List of Research Outputs |
Zeng H., Yang C., Dai J. and Cui X., Light-induced incandescence of single-walled carbon nanotubes, The Journal of Physical Chemistry C. American Chemical Society, 2008, 112: 4172-4175. |
Researcher
: Yang D |
List of Research Outputs |
Bai
Y., Yang D. and Wang Z.D., Multipartite quantum
correlation and entanglement in four-qubit pure states, Physical Review A.
|
Yang D.,
Study of radiation effects on polyurethanes by positron annihilation
techniques. Hong Kong, The |
Researcher
: Yang D |
List of Research Outputs |
Bai
Y., Yang D. and Wang Z.D., Multipartite quantum
correlation and entanglement in four-qubit pure states, Physical Review A.
|
Yang D.,
Study of radiation effects on polyurethanes by positron annihilation
techniques. Hong Kong, The |
Researcher
: Yang K |
List of Research Outputs |
Chen W., Yang K., Rice T.M. and Zhang F.C., Quantum oscillations in magnetic-field-induced antiferromagnetic phase of underdoped cuprates: Application to ortho-II YBa2Cu3O6.5, Europhysics Letters. EPLA, 2008, 82: 17004: 1-5. |
Rice
T.M., Yang K. and Zhang F.C., A phenomenological theory of
the pseudogap state, Physica C-Superconductivity and its Applications.
|
Yang
K., Rice
T.M. and Zhang F.C., Effect of
superlattice modulation of electronic parameters on the density of states of
cuprate superconductors, Physical Review B (Rapid Communications). |
Researcher
: Yang M |
List of Research Outputs |
Yang M., Xu S.J. and Wang J., Influence of capping layer and atomic interdiffusion on the strain distribution in single and double self-assembled InAs/GaAs quantum dots, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 083112: 1-3. |
List of Research Outputs |
Yao
Z., Li J.X. and Wang Z.D., Band structure
renormalization and weak pseudogap behavior in Na0.33CoO2:
Fluctuation exchange study based on a single-band model, Physical Review B
(Brief Reports). |
List of Research Outputs |
Hsu Y.F., Xi Y., Yip C.T., Djurisic A. and Chan W.K., Dye-sensitized solar cells using ZnO tetrapods, Journal of Applied Physics. New York, American Institute of Physics, 2008, 103: 083114: 1-4. |
Hsu Y.F., Xi Y., Djurisic A., Chan W.K., Yip C.T. and Tam K.H., Hydrothermal growth of periodic ZnO nanorod arrays using polystyrene sphere templates, Proceedings of SPIE. 2007, 6639: 66390I: 1-8. |
Luo Z., Gao J., Djurisic A., Yip C.T. and Zhang G.B., Photoelectric response of Schottky barrier in La0.7Ca0.3MnO3/Nb:SrTiO3 heterojunctions, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 182501: 1-3. |
Wong W.Y., Wang X.Z., He Z., Djurisic A., Yip C.T., Cheung K.Y., Wang H., Mak S.K. and Chan W.K., Metallated conjugated polymers as a new avenue towards high-efficiency polymer solar cells, Nature Materials. Nature Publishing Group, 2007, 6: 521-527. |
Wong W.Y., Wang X.Z., He Z., Chan K.K., Djurisic A., Cheung K.Y., Yip C.T., Ng M.C.A., Xi Y., Mak S.K. and Chan W.K., Tuning the absorption, charge transport properties, and solar cell efficiency with the number of thienyl rings in platinum-containing poly(aryleneethynylene)s, Journal of the American Chemical Society. American Chemical Society, 2007, 129: 14372-14380. |
Yip C.T., Cheung K.Y., Djurisic A. and Chan W.K., Titania nanotube array based photovoltaic cells, Proceedings of SPIE. 2007, 6656: 665616: 1-11. |
Researcher
: Zeng H |
List of Research Outputs |
Zeng H., Yang C., Dai J. and Cui X., Light-induced incandescence of single-walled carbon nanotubes, The Journal of Physical Chemistry C. American Chemical Society, 2008, 112: 4172-4175. |
Zeng H., Jiao L.Y., Xian X.J., Qin X.C., Liu Z.F. and Cui X., Reflectance spectra of individual single-walled carbon nanotubes, Nanotechnology. Bristol, IOP Publishing Limited, 2008, 19: 045708: 1-4. |
Researcher
: Zhang F |
Project Title: |
Superconductor and antiferromagnetic insulator transition in cuprates and layered organic superconductors |
Investigator(s): |
Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To gain theoretical understanding of a class of superconductors on the verge of antiferromagnetic insulators. The key issue is to investigate the completition between the electron localization due to electron-electron repulsive force and the delocalized paired electrons due to electron's kinetic energy and the attractive force between electrons originated from the antiferromagnetic spin-spin coupling. |
Project Title: |
Proposal for Seed Funding for Strategic Research Theme - Computational Physics and Numerical Methods |
Investigator(s): |
Zhang FC, Cheung PYS, Ching WK, Mok N, Chwang ATY, Sze KY |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding for Strategic Research Theme |
Start Date: |
07/2005 |
Abstract: |
The proposed theme focuses on the computational physics and relevant numerical methodologies, and concentrates the research activities that are of interests to both Faculty of Science and Faculty of Engineering. It includes both the development of the methods and the applications. We intend to develop quantum mechanical methods for complex systems, optimiation techniques such as nonlinear programming, data mining convex programming, and general numerical methods including finite element techniques, large-dimension matrix manipulation and iterative procedures. Using these novel numberical methods together with the existing ones, we would investigate the topics in nano-optics, electrics, transport and mechanics and would also be interested in examine phenomena at larger scales such as structural analysis of continuum systems, soil mechanics, fluid mechanics, crack, fracture and multi-physics problems. |
Project Title: |
Theory of tunneling conductance and possible checkerboard charge ordering in high temperature superconducting copper oxides |
Investigator(s): |
Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
08/2005 |
Abstract: |
The main objective of this project is to gain theoretical understanding of the checkerboard like electron charge ordering observed in recent scanning tunneling microscopy measurements in high critical temperature (high Tc) superconducting copper oxides. |
Project Title: |
Exploring novel electronic states in condensed matter |
Investigator(s): |
Zhang FC, Ng TK, Tang LH, Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Central Allocation Vote - Group Research Project |
Start Date: |
03/2006 |
Abstract: |
To explore mechanisms that lead to the novel electronic states in condensed matter materials and to develop theories that quantify their physical properties; to explore the intrinsic relation between entanglement and quantum phase transitions; to form a multi-institutional research center in theoretical and computational physics. |
Project Title: |
Theoretical study of superfluidity in solid helium-4 |
Investigator(s): |
Zhang FC, Ma M |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2006 |
Abstract: |
(1) The purpose of the proposed project is to gain theoretical understanding of recently observed superfluid-like behavior in solid 4-He, or supersolid. At temperature below about 2K, liquid helium enters into a superfluid state and flows without any friction. At a high pressure and a low temperature, helium is solidified. While superflow is intuitively associated with liquid, there have been speculations that solid helium may also show superfluidity due to the zero-point vacancies. However, experiments have since put severe limits on the number of such vacancies and search for the superfluidity in solid helium has not been successful till most recent reports of Kim and Chan on the nonclassical rotational inertial, which shows missing of the mass inertial in rotation, a superfluid-like behavior. The proposed project aims to understand this interesting but puzzling phenomenon. (2) There are two possible scenarios for the superfluidity in solid helium observed in the experiments of Kim and Chan. One is to relate it to zero-point vacancy condensation, a mechanism first proposed by Andreev and Lifshitz in 1969, but experiments since put severe limits on number of vacancies. The other attributes superfluidity to the interfaces within the solid or the interface between the solid and container in the experiment. Currently it is not clear which scenario describes the true physics, and more experiments will be needed to clarify the issue. At this stage of the development, it appears interesting to theoretically examine the possible mechanism for the supersolid based on vacancy or interstitial condensation which is also consistent with the known experiments, namely there is very limited number of vacancies or interstitials in the normal solid state. Since all the theoretical studies have actually ruled out the possible supersolid state without defects, such a mechanism is necessary to explain the possible bulk phenomenon of superfluid in solid helium. Such a study may also be of relevance to Bose Einstein condensation in optical lattices. (3) Since the previous experiments have indicated that single vacancy (or single interstitial) in an otherwise defect-free state is not energetically favorable, one of the key issues in this problem is to examine a new type of lattice defect, or a bound state of vacancy and interstitial called an exciton. We will study coherent motion of helium atoms in a mixture of vacancy, interstitial, and exciton. Our objectives are two-fold as described below. (4) The first objective is to examine a phenomenological lattice model involving both vacancy and interstitial to study the effect of their interactions to the superfluidity and its temperature dependence and impurity effect. (5) The second objective is to study the effect of lattice dynamics to supersolidity within the model. We will study the elastic energy due to the defect and the effect of phonons to the superfluidity in solid helium. (6) The outcome of the project is expected to add our understanding of the defects and the roles they might play in supersolid helium. The experiments in this field are developing rapidly, and we expect more new experiments will provide new insight on this dynamic field. We are flexible and well equipped to tackle related new issues arising during the period of the project as opportunity comes. |
Researcher
: Zhang FC |
Project Title: |
Superconductor and antiferromagnetic insulator transition in cuprates and layered organic superconductors |
Investigator(s): |
Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
01/2005 |
Abstract: |
To gain theoretical understanding of a class of superconductors on the verge of antiferromagnetic insulators. The key issue is to investigate the completition between the electron localization due to electron-electron repulsive force and the delocalized paired electrons due to electron's kinetic energy and the attractive force between electrons originated from the antiferromagnetic spin-spin coupling. |
Project Title: |
Proposal for Seed Funding for Strategic Research Theme - Computational Physics and Numerical Methods |
Investigator(s): |
Zhang FC, Cheung PYS, Ching WK, Mok N, Chwang ATY, Sze KY |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding for Strategic Research Theme |
Start Date: |
07/2005 |
Abstract: |
The proposed theme focuses on the computational physics and relevant numerical methodologies, and concentrates the research activities that are of interests to both Faculty of Science and Faculty of Engineering. It includes both the development of the methods and the applications. We intend to develop quantum mechanical methods for complex systems, optimiation techniques such as nonlinear programming, data mining convex programming, and general numerical methods including finite element techniques, large-dimension matrix manipulation and iterative procedures. Using these novel numberical methods together with the existing ones, we would investigate the topics in nano-optics, electrics, transport and mechanics and would also be interested in examine phenomena at larger scales such as structural analysis of continuum systems, soil mechanics, fluid mechanics, crack, fracture and multi-physics problems. |
Project Title: |
Theory of tunneling conductance and possible checkerboard charge ordering in high temperature superconducting copper oxides |
Investigator(s): |
Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
08/2005 |
Abstract: |
The main objective of this project is to gain theoretical understanding of the checkerboard like electron charge ordering observed in recent scanning tunneling microscopy measurements in high critical temperature (high Tc) superconducting copper oxides. |
Project Title: |
Exploring novel electronic states in condensed matter |
Investigator(s): |
Zhang FC, Ng TK, Tang LH, Wang ZD |
Department: |
Physics |
Source(s) of Funding: |
Central Allocation Vote - Group Research Project |
Start Date: |
03/2006 |
Abstract: |
To explore mechanisms that lead to the novel electronic states in condensed matter materials and to develop theories that quantify their physical properties; to explore the intrinsic relation between entanglement and quantum phase transitions; to form a multi-institutional research center in theoretical and computational physics. |
Project Title: |
Theoretical study of superfluidity in solid helium-4 |
Investigator(s): |
Zhang FC, Ma M |
Department: |
Physics |
Source(s) of Funding: |
Competitive Earmarked Research Grants (CERG) |
Start Date: |
10/2006 |
Abstract: |
(1) The purpose of the proposed project is to gain theoretical understanding of recently observed superfluid-like behavior in solid 4-He, or supersolid. At temperature below about 2K, liquid helium enters into a superfluid state and flows without any friction. At a high pressure and a low temperature, helium is solidified. While superflow is intuitively associated with liquid, there have been speculations that solid helium may also show superfluidity due to the zero-point vacancies. However, experiments have since put severe limits on the number of such vacancies and search for the superfluidity in solid helium has not been successful till most recent reports of Kim and Chan on the nonclassical rotational inertial, which shows missing of the mass inertial in rotation, a superfluid-like behavior. The proposed project aims to understand this interesting but puzzling phenomenon. (2) There are two possible scenarios for the superfluidity in solid helium observed in the experiments of Kim and Chan. One is to relate it to zero-point vacancy condensation, a mechanism first proposed by Andreev and Lifshitz in 1969, but experiments since put severe limits on number of vacancies. The other attributes superfluidity to the interfaces within the solid or the interface between the solid and container in the experiment. Currently it is not clear which scenario describes the true physics, and more experiments will be needed to clarify the issue. At this stage of the development, it appears interesting to theoretically examine the possible mechanism for the supersolid based on vacancy or interstitial condensation which is also consistent with the known experiments, namely there is very limited number of vacancies or interstitials in the normal solid state. Since all the theoretical studies have actually ruled out the possible supersolid state without defects, such a mechanism is necessary to explain the possible bulk phenomenon of superfluid in solid helium. Such a study may also be of relevance to Bose Einstein condensation in optical lattices. (3) Since the previous experiments have indicated that single vacancy (or single interstitial) in an otherwise defect-free state is not energetically favorable, one of the key issues in this problem is to examine a new type of lattice defect, or a bound state of vacancy and interstitial called an exciton. We will study coherent motion of helium atoms in a mixture of vacancy, interstitial, and exciton. Our objectives are two-fold as described below. (4) The first objective is to examine a phenomenological lattice model involving both vacancy and interstitial to study the effect of their interactions to the superfluidity and its temperature dependence and impurity effect. (5) The second objective is to study the effect of lattice dynamics to supersolidity within the model. We will study the elastic energy due to the defect and the effect of phonons to the superfluidity in solid helium. (6) The outcome of the project is expected to add our understanding of the defects and the roles they might play in supersolid helium. The experiments in this field are developing rapidly, and we expect more new experiments will provide new insight on this dynamic field. We are flexible and well equipped to tackle related new issues arising during the period of the project as opportunity comes. |
List of Research Outputs |
Chen W., Yang K., Rice T.M. and Zhang F.C., Quantum oscillations in magnetic-field-induced antiferromagnetic phase of underdoped cuprates: Application to ortho-II YBa2Cu3O6.5, Europhysics Letters. EPLA, 2008, 82: 17004: 1-5. |
Chen
Y., Rice T.M. and Zhang F.C., Atomic scale rotational
symmetry breaking in lightly doped Ca2-xNaxCuO2Cl2, Physica
C-Superconductivity and its Applications. |
Dai
X. and Zhang F.C.,
Light-induced Hall effect in semiconductors with spin-orbit coupling, Physical
Review B. |
Guertler
S., Troyer M. and Zhang F.C.,
Quantum Monte Carlo study of a two-species bosonic Hubbard model, Physical
Review B. |
Rice
T.M., Yang K. and Zhang F.C., A phenomenological
theory of the pseudogap state, Physica C-Superconductivity and its
Applications. |
Yang
K., Rice T.M. and Zhang F.C., Effect of superlattice
modulation of electronic parameters on the density of states of cuprate
superconductors, Physical Review B (Rapid Communications). |
Zhang F.C. and Shen S.Q., Theory of resonant spin Hall effect, International Journal of Modern Physics B. Singapore, World Scientific, 2008, 22: 94-103. |
Zhou
Y., Chen W. and Zhang F.C., Symmetry of
superconducting states with two orbitals on a tetragonal lattice: Application
to LaFeAsO1-xFx, Physical Review B. |
Zhuang
H., Ma M., Dai X. and Zhang F.C., Mott
insulator-superfluid transitions in a two-band model at finite temperature
and possible application to supersolid 4He, Physical
Review B. |
Researcher
: Zhang J |
List of Research Outputs |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Zhang J., Cheng C.C., Ling F.C.C., Beling C.D. and Fung S.H.Y., Silicon and carbon vacancies in silicon carbide studied by coincidence Doppler broadening spectroscopy, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3676-3679. |
Researcher
: Zhang Q |
List of Research Outputs |
Zhang Q., Quantum information processing with a geometric scenario.
Hong Kong, The |
Researcher
: Zhang S |
List of Research Outputs |
Djurisic
A., Tam K.H., Hsu Y.F., Zhang S., Xie M.H. and Chan W.K., GaN nanowires--influence of
the starting material on nanowire growth, Thin Solid Films. |
Zhang S., Djurisic A., Hsu Y.F., Ng M.C.A. and Xie M.H., Influence of different insulating polymers on the performance of ZnO nanorod based LEDs, Proceedings of SPIE. 2008, 6988: 69881O: 1-8. |
Zhang S., Model of high energy emission from young pulsars. Hong
Kong, The |
Zhang S., Tam K.H., Djurisic A. and Hsu Y.F., The influence of source
material composition on morphology and optical properties of ZnO
nanostructures, Journal of Nanoscience and Nanotechnology. |
Researcher
: Zhang S |
List of Research Outputs |
Djurisic
A., Tam K.H., Hsu Y.F., Zhang S., Xie M.H. and Chan W.K., GaN nanowires--influence of
the starting material on nanowire growth, Thin Solid Films. |
Zhang S., Djurisic A., Hsu Y.F., Ng M.C.A. and Xie M.H., Influence of different insulating polymers on the performance of ZnO nanorod based LEDs, Proceedings of SPIE. 2008, 6988: 69881O: 1-8. |
Zhang S., Model of high energy emission from young pulsars. Hong
Kong, The |
Zhang S., Tam K.H., Djurisic A. and Hsu Y.F., The influence of source
material composition on morphology and optical properties of ZnO
nanostructures, Journal of Nanoscience and Nanotechnology. |
Researcher
: Zhang Y |
List of Research Outputs |
Kwok
S., Zhang Y. and |
Kwok S., Zhang Y., Koning N., Huang H.-.H. and Churchwell E., Planetary nebulae detected in the Spitizer space telescope GLIMPSE legacy survey, In: Ethan T. Vishniac, ApJS. 2008, 174: 426. |
Kwok
S., Zhang Y. and Nakashima J., Telescope Time of the SMT |
Nakashima
J., Deguchi S., Koike K., Sawada T. and Zhang Y., Telescope Time of the NRO |
Williams R., Jenkins E., Baldwin J., Zhang Y., Sharpee B., Pellegrini E. and Phillips M., Independent emission and absorption abundances for planetary nebulae, In: Ethan T. Vishniac, The Astrophysical Journal. The American Astronomical Society, 2008, 677: 1100-1119. |
Zhang Y., A molecular survey of the young planetary nebula NGC 7027, The 4th Chinese Astronomy Annual Conference. 2007. |
Zhang
Y., Kwok
S. and |
Zhang
Y., Kwok
S. and |
Zhang
Y., Molecular surveys in the envelopes of
evolved stars, Nobeyama Radio Observatory, National Astronomical
Observatory of |
Zhang
Y., Nakashima
J. and Kwok S., Telescope Time of
CSO (Project Title: Search for CF+ in the Envelope of IRC+10216), Caltech
Submillimeter Observatory Telescope, Mauna Kea |
Zhang
Y., Nakashima
J., Deguchi S. and Kwok S.,
Telescope Time of the NRO |
Researcher
: Zhao H |
List of Research Outputs |
Zhao H. and Wang J., Multi-photon behaviors of shot noise in a quantum dot system under the perturbation of two microwave fields, The European Physical Journal B. EDP Sciences, 2007, 59: 329-342. |
Researcher
: Zhao H |
Project Title: |
External field effect on semiconducting single-walled carbon nanotubes |
Investigator(s): |
Zhao H |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
11/2006 |
Abstract: |
The proposed project will study the properties of semiconducting single-walled carbon nanotubes (S-SWCNTs) under different external field, and also explore the possibility of new experimental techniques to probe the electronic and optical properties of S-SWCNTs. The study of carbon nanotubes has ignited the whole research of the science and technology toward the small nanometer scale. The unique electronic and physical properties of CNTs make many novel application possible. In the real application, CNTs will be in a complex environment, experiencing external electric and magnetic fields, and other physical and chemical interactions. The properties of CNTs under the external electric and magnetic field is thus of imminent and practical importance. It is only in the recent two or three years that the importance of electron-electron interaction has been realized to be very important in S-SWCNTs. Recent optical experiments have proved that excitons, the direct manifestation of the electron-electron interaction, is the dominate excitation in S-SWCNTs, and the simple tight-binding energy gap is invalid in discussing the optical and electronic properties of S-SWCNTs. The current research of the properties of S-SWCNTs under external electric or/and magnetic field is however, almost all based on the tight-binding model without considering the electron-electron interaction. A theory that takes into account the electron-electron interaction is necessary, and is the primary content of this proposed work. This proposed project is consist of two separate works. 1. S-SWCNTs in external electric field. External electric field changed the CNT electronic property, and in turn changes the optical properties of CNTs. The study of the change of absorption due to the presence of electric field is called electroabsorption, and this technique has been proved to be very powerful in the study of conjugated polymers, which is another kind of materials that bears strong similarities with S-SWCNTs due to the composition and configuration. Questions in this part of the research include the followings. (1) Can we predict the shape of the electroabsorption signal for a single S-SWCNT? (2) Can we predict the shape of the signal for a bundle of S-SWCNTs, which will allow us to compare with experiment that will be possible in the future. (3) From the earlier calculation we found the signature of two-photon exciton state in electroabsorption signal in conjugated polymers, can we find the same thing in S-SWCNTs? (4) S-SWCNTs exhibit many manifold in their electronic and optical properties. The lowest two absorption peaks in S-SWCNTs are the excitons of each of the lowest two manifold of CNTs. It has been very hard to experimentally probe the properties of the second manifold. Will electroabsorption, a modulation technique, provide information on the second manifold? 2. S-SWCNTs in external magnetic field. There are many theoretical investigations on the properties of SWCNTs under external static magnetic field, especially the Aharonov-Bohm effect (AB effect) when the magnetic field is parallel to the NT axis. However, most of the theory are using effective-mass approximation or tight binding (TB) theory, without the consideration of Coulomb interaction. These approaches do capture the splitting of the degenerate TB band, and the gap modulation with the ratio of magnetic flux to magnetic flux quantum. However, by ignoring Coulomb interaction, these theories are evidently inadequate. In the current experimental setting, energy splitting caused by magnetic field is much smaller than the exciton binding energy, hence excitons are stable under magnetic field, and will be the primary responder to the magnetic field. Absorption splitting behavior will not simply depend on TB band splitting, but also on “dark-bright” exciton separation. Questions asked in this part of the research include the following. (1) How do the excitons respond to the magnetic field? (2) We expect the "bright-dark" exciton energy separation will be the primary energy scale in the physics of magnetic field. But can the activated gap behavior observed in the experiments solely explained by the electron-electron interaction in S-SWCNT, what are the roles played by external factors, like small bundle, etc. (3) The energy separation of "bright-dark" excitons is important as it determines the quantum efficiency of the photoluminescence, and will be the determining factor of the CNT application. This quantity has not been experimentally observed. Is it possible to extract the "bright-dark" exciton energy separation from the experimental data? The question asked in this project are of interest to both basic theory and practical applications. |
List of Research Outputs |
Zhao H. and Wang J., Multi-photon behaviors of shot noise in a quantum dot system under the perturbation of two microwave fields, The European Physical Journal B. EDP Sciences, 2007, 59: 329-342. |
Researcher
: Zheng D |
List of Research Outputs |
Zheng D., Evaluation and development of data assimilation in
atmospheric dispersion models for use in nuclear emergencies. Hong Kong,
The |
Researcher
: Zheng H |
List of Research Outputs |
Zheng
H., Xie
M.H., Wu H.S. and Xue Q.K.,
Kinetic energy barriers on the GaN(0001) surface: A nucleation study by
scanning tunneling microscopy, Physical Review B. |
Researcher
: Zhou B |
Project Title: |
Spin current, anomalous and spin Hall effects in two-dimensional electron gas with spin-orbit coupling |
Investigator(s): |
Zhou B, Shen SQ, Zhang FC |
Department: |
Physics |
Source(s) of Funding: |
Small Project Funding |
Start Date: |
09/2006 |
Abstract: |
The objective of this proposed project is
to investigate spin coherent transport of two-dimensional electron gas with
spin-orbit coupling. Spin coherent transport of conduction electrons in
semiconductor heterostructures is currently an emerging subject due to its
possible application in a new generation of electronic devices. The coupling
between the orbital and spin degree of freedom of electrons is a relativistic
effect described by the Dirac equation. The band structure of Zinc-blende
III-V semiconductors shows many formal similarities to the situation of free
relativistic electrons. The spin-orbit coupling is an important effect in
III-V semiconductors which plays a key role in the field of spintronics.
There have been considerable concerns on generation of spin current in
semiconductors. Spin currents can exist in the form of spin-polarized
electrical current, with both a net electrical current and a net spin
polarization, or a pure spin current, in which there is no net motion of
charge in a pure spin current; spin-up electrons travel in one direction
while spin-down electrons travel in the opposite direction. In this project,
we will firstly investigate polarized light-induced spin current and how to
detect spin current. Optical injection of spin current is an alternative way
and largely based on the fact that the spin polarized carriers in conduction
band can be injected in semiconductors via absorption of the circularly or
linearly polarized light. Optical processes rely on the spin-orbit
interaction, which allow the electric field of incident light to couple to
the spin degree of freedom. It is well known that the orientation of electron
spins in semiconductors by interband optical transitions, due to the
absorption of circularly polarized light, leads to the generation of a net
spin density in semiconductors. Recently, there have been considerable
efforts to achieve spin polarized current in semiconductors by means of
optical injection. The conversion of the carriers' spin polarization into an
electric current has been observed in both n-type and p-type quantum wells as
well as for different symmetry classes. Recently, spin photocurrent was also experimentally
demonstrated in a two-dimensional electron gas system with Rashba spin
splitting. Besides spin polarized current, it is more interesting to generate
pure spin current. Pure spin current from one-photon absorption of linearly
polarized light has proposed and observed. In this project, we consider that
the semiconductor wells are irradiated by polarized lights to induce spin
polarization, electric current and pure spin current via interband
excitations. Under oblique incidence of circularly polarizaed light, in-plane
spin polarization can be induced as well as z-component spin polarization,
and due to spin-orbit coupling photocurrent can be also induced in the plane
of a quantum well perpendicular to the direction of light propagation. The
effect is just like the converse effect of electric current-indeuced spin
polarization in 2D system without inversion symmetry. Additionally, a pure
spin current occurs perpendicularly to the direction of photocurrent. The
linearly polarized light being normally incident on the sample surface can
produce pure spin currents with an in-plane polarization, while there are no
spin ploarization and electric current. We expect to establish the relation
between light-induced electric current and pure spin current in semiconductor
quantum wells via inter-band transitions, and more to propose that linearly
polarized light-induced pure spin current can be determined by measuring the
photocurrent. Secondly, we will investigate the anomalous Hall effect in
two-dimensional hole gas with magnetic impurities. The theory of anomalous
Hall effect has a long history since 1950s. It was realized that several
different mechanisms are contributed to the total Hall conductance in
ferromagnetic metals and semiconductors. Except for the skew scattering and
the side jump from the impurity scattering, an intrinsic mechanism tells that
the spin-orbit coupling in the electronic band structure of the system may
induce a non-zero |
List of Research Outputs |
Liu
C., Zhou B., Shen S.Q. and Zhu B.F., Current-induced
spin polarization in a two-dimensional hole gas, Physical Review B. |
Zhou B. and Shen S.Q., Spin transverse force and quantum transverse transport, International Journal of Modern Physics B. Singapore, World Scientific, 2008, 22: 76-81. |
Zhou
B., Liu C.X. and Shen S.Q., Topological quantum phase
transition and the |
Researcher
: Zhou T |
List of Research Outputs |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Zhou T.,
All-electron and full-potential positron annihilation calculations for
intrinsic and defective zinc and zinc oxide. Hong Kong, The |
Zhou
T. and Wang
Z.D., Phenomenological theory of spin excitations in La- and Y-based
cuprates, Physical Review B. |
Researcher
: Zhou T |
List of Research Outputs |
Hui C.W., Zhang J., Zhou T., Ling F.C.C., Beling C.D., Fung S.H.Y., Brauer G., Anwand W. and Skorupa W., Positron annihilation spectroscopic study of hydrothermal grown n-type zinc oxide single crystal, Physica Status Solidi C. Weinheim, WILEY-VCH Verlag GmbH & Co., 2007, 4: 3672-3675. |
Zhou T.,
All-electron and full-potential positron annihilation calculations for
intrinsic and defective zinc and zinc oxide. Hong Kong, The |
Zhou
T. and Wang
Z.D., Phenomenological theory of spin excitations in La- and Y-based
cuprates, Physical Review B. |
Researcher
: Zhou Y |
List of Research Outputs |
Zhou
Y., Chen
W. and Zhang F.C., Symmetry of
superconducting states with two orbitals on a tetragonal lattice: Application
to LaFeAsO1-xFx, Physical Review B. |
Researcher
: Zhu C |
List of Research Outputs |
Brauer G., Anwand W., Skorupa W., Beynik I., Teichert C., Hsu Y.F., Xi Y., Zhu C., Ling F.C.C. and Djurisic A., Non-destructive characterization of vertical ZnO nanorod arrays by slow positron implantation spectroscopy, atomic force microscopy, and photoluminescence, 9th International Workshop on Positron and Positronium Chemistry, Wuhan University, China, May 11-15, 2008. 46. |
Gu Q., Ling F.C.C., Brauer G., Anwand W., Skorupa W., Hsu Y.F., Djurisic A., Zhu C., Fung S.H.Y. and Lu L., Deep level defects in a nitrogen-implanted ZnO homogeneous p-n junction, Applied Physics Letters. New York, American Institute of Physics, 2008, 92: 222109: 1-3. |
Zhu C.,
Ling F.C.C., Brauer G., Anwand W. and
Skorupa W., Deep level defect study of As-implanted ZnO p-n junction, Wide
Band Gap Semiconductor Nanostructures for Optoelectronic Applications, E-MRS
2008 Spring Meeting, |
Researcher
: Zhu S |
List of Research Outputs |
Zhang X.D., Wang Z.D., Hu L.B., Zhang Z.M. and Zhu S., Detecting unambiguously non-Abelian geometric phases with trapped ions, New Journal of Physics. IOP Publishing Limited, 2008, 10: 043031: 1-10. |
Researcher
: Zhu Y |
Project Title: |
Magnetism and Magneto-resistance in Carbon Nanotube / Transition Metal Hybrid System |
Investigator(s): |
Zhu Y |
Department: |
Physics |
Source(s) of Funding: |
Seed Funding Programme for Basic Research |
Start Date: |
06/2006 |
Abstract: |
Spintronics aims at using the spin of
electrons to carry information [1]. The simplest spintronics device is
spin-valve, which consists of two ferromagnetic electrodes sandwiched with a
layer of nonmagnetic metal or insulator. The junction resistance can be
manipulated with a relative small magnetic field due to spin polarization at
the Fermi energy. Transition metals are widely used to grow magnetic thin
films and fabricate spin-valve. On the other hand, one-dimensional
nano-devices are desirable in some application circumstances. Especially,
carbon nanotubes are well studied for their physical properties and show
great potential as building blocks in nanoscale electronics [2].
Experimentally, carbon nanotubes can either be filled with materials in its
cavity or be coated with materials on the tube surface [3,4]. A combination
of carbon nanotubes and ferromagnetic transition metals could be promising in
providing the required magnetism, dimensionality, and small volume. Transport
measurements on multi-wall carbon nanotubes coupled to ferromagnetic
electrodes showed maximum magneto-resistance of 9%, from which the spin-flip
scattering length is estimated to be at least 130 nm [5]. Pronounced
gate-field-controlled magneto-resistance was observed in carbon nanotubes
connected by ferromagnetic leads. Both the magnitude and the sign of the
magneto-resitance can be tuned with gate voltages [6]. However, there are
only a few theoretical works for the properties of carbon nanotube /
transition metal hybrid systems [7,8]. Very recently, Yang et al found
through ab initio calculation that ferromagnetic materials packed inside
carbon nanotubes exhibit substantial magnetism and strong spin polarization
at the Fermi level [8]. Motivated by their work, we propose to study the
transport properties in the magnetic junctions composed of carbon nanotube
and transition metals. The objective of this project is summarized as
follows: (1) Develop and apply the new version of matdcal package to model
spin-dependent transport. The new version adopts k point sampling in the
xy-plane to simulate multi-layer structures; Both local spin density
approximation (LSDA) and generalized gradient approximation (GGA) are
implemented in the exchange correlation energy; partial core correction and
optimized Siesta orbitals are used in the calculation. (2) Investigate the
magnetism of quasi 1D ferromagnetic wire and its effects on the
magneto-resistance. Several questions are to be answered: How does the
magnetism evolves from 3D bulk to quasi 1D wire? How does the coupling
between carbon nanotube and ferromagnetic atoms change the magnetism? What is
the magneto-resistance in some possible geometries (e.g., carbon nanotube
filled or coated with cobalt atoms)? Whether the singularity in density of
states of 1D system enhances the spin polarization at the Fermi level? [1] G.
A. Prinz. Cience 282, 1660 (1998). [2] M. S. Dresselhaus, G. Dresselhaus, and
P. Avouris, Carbon Nanotubes: Synthesis, Structure, Properties and
Applications ( |
Researcher
: Zhuang H |
List of Research Outputs |
Zhuang H., Ma M., Dai X. and Zhang F.C., Mott insulator-superfluid
transitions in a two-band model at finite temperature and possible
application to supersolid 4He, Physical Review B. |
Zhuang H., Theoretical studies of possible supersolid helium 4 and boson
systems in optical lattices. Hong Kong, The |
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