1,166 research outputs found
Non-Abelian spin-orbit gauge: Persistent spin helix and quantum square ring
We re-express the Rashba and Dresselhaus interactions as non-Abelian
spin-orbit gauges and provide a new perspective in understanding the persistent
spin helix [Phys. Rev. Lett. 97, 236601 (2006)]. A spin-orbit interacting
system can be transformed into a free electron gas in the equal-strength
Rashba-Dresselhaus [001] linear model, the Dresselhaus [110] linear model, and
a one-dimensional system. A general tight-binding Hamiltonian for non-uniform
spin-orbit interactions and hoppings along arbitrary directions, within the
framework of finite difference method, is obtained. As an application based on
this Hamiltonian, a quantum square ring in contact with two ideal leads is
found to exhibit four states, insulating, spin-filtering, spin-flipping, and
spin-keeping states.Comment: 7 pages, 3 figure
Tools for developing continuous-flow micro-mixer : numerical simulation of transitional flow in micro geometries and a quantitative technique for extracting dynamic information from micro-bubble images
Recent advance in the microfluidics including its fabrication technologies has
led to many novel applications in micro-scale flows. Among them is the
continuous-flow micromixer that utilizes the advantages associated with
turbulent flows for rapid mixing, achieving the detection of fast kinetic
reaction as short as tens of microseconds. However, for developing a high
performance continuous-flow micromixer there are certain fundamental
issues need to be solved. One of them is an universal simulation approach
capable of calculating the flow field across entire passage for entire regime
from very low Reynolds number laminar flow through transition to fully
turbulent flow. Though the direct numerical simulation is potentially possible
solution but its extremely high computing time stops itself from practical
applications. The second major issue is the inevitable occurrence of
cavitation bubbles in this rapid flow apparatus. This phenomenon has
opposite effects: (a) deteriorating performance and damaging the micromixer;
(b) playing a catalyst role in enhancing mixing. A fully understanding of
these micro bubbles will provide a sound theoretical base for guiding the design of micromixer in order to explore the advantage to maximum while
minimizing its disadvantages. Therefore, the objectives of this PhD
programme is to study the tools that will effectively advance our fundamental
understandings on these key issues while in short term fulfil the requires from
the joint experimental PhD programme held in the life science faculty for
designing a prototype experimental device. During this PhD study, an
existing numerical approach suitable for predicting the possibly entire flow
regime including the turbulence transition is proposed for simulating the
microscale flows in the microchannel and micromixer. The simulation results
are validated against the transitional micro-channel experiments and this
numerical method is then further applied for the micromixer simulation. This
provides the researcher a realistic and feasible CFD tool to establish
guidelines for designing high-efficiency and cost-effective micromixers by
utilizing various possible measures which may cause very different flows
simultaneously in micromixer. In order to study microscale cavitation
bubbles and their effects on micromixers, an innovative experimental setup is
purposely designed and constructed that can generate laser-induced
micro-bubbles at desired position and size for testing. Experiments withvarious micro-scale bubbles have been performed successfully by using an
ultra high-speed camera up to 1 million frame rate per second. A novel
technique for tracking the contours of micro-scale cavitation bubble
dynamically has been developed by using active contour method. By using
this technique, for the first time, various geometric and dynamic data of
cavitation bubble have been obtained to quantitatively analyze the global
behaviours of bubbles thoroughly. This powerful tool will greatly benefit the
study of bubble dynamics and similar demands in other fields for fast and
accurate image treatments as well
Rashba Spin Interferometer
A spin interferometer utilizing the Rashba effect is proposed. The novel
design is composed of a one-dimensional (1D) straight wire and a 1D half-ring.
By calculating the norm of the superposed wave function, we derive analytical
expressions to describe the spin interference spectrum as a function of the
Rashba coupling strength. Presented spin interference results are identified to
include (i) the quantum-mechanical 4pi rotation effect, (ii) geometric effect,
and (iii) Shubnikov-de Haas-like beating effect.Comment: 3 pages, 3 figures, appears in the proceedings of the 10th Joint
MMM/Intermag Conferenc
Quantum World-line Monte Carlo Method with Non-binary Loops and Its Application
A quantum world-line Monte Carlo method for high-symmetrical quantum models
is proposed. Firstly, based on a representation of a partition function using
the Matsubara formula, the principle of quantum world-line Monte Carlo methods
is briefly outlined and a new algorithm using non-binary loops is given for
quantum models with high symmetry as SU(N). The algorithm is called non-binary
loop algorithm because of non-binary loop updatings. Secondary, one example of
our numerical studies using the non-binary loop updating is shown. It is the
problem of the ground state of two-dimensional SU(N) anti-ferromagnets. Our
numerical study confirms that the ground state in the small N <= 4 case is a
magnetic ordered Neel state, but the one in the large N >= 5 case has no
magnetic order, and it becomes a dimer state.Comment: 14 pages, 5 figures, Invited talk at the 18th Annual Workshop on
Recent Developments of Computer Simulation Studies in Condensed Matter
Physics, Athens, 7-11 March, 200
ON THE EQUIVALENCE OF IMPORT TARIFF AND QUOTA: THE CASE OF RICE IMPORT IN TAIWAN
This paper extends the existing theory on the equivalence of import tariff and quota. If the equivalence is defined on the domestic price level (weak equivalence), then either the zero conjectural variation for domestic country or a perfectly competitive market will be sufficient to support this equivalence. If the equivalence is defined both on the same domestic price level as well as tariff rate (strong equivalence), then the conditions are that either domestic country acts as a Cournot competitor and foreign country is a price taker, or both domestic and foreign country are price takers. An empirical spatial-equilibrium trade model is constructed to simulate the impacts of import tariff and quota. Using Taiwan¡¦s rice import as an example, the empirical results show that if Taiwan switches from the quota system to tariff system, the domestic rice price as well as total social welfare can be increased given the same import volume.International Relations/Trade,
Investigating the Possibility of Intervertebral Disc Regeneration Induced by Granulocyte Colony Stimulating Factor-Stimulated Stem Cells in Rats
Intervertebral disc (IVD) degeneration is a multifactorial process that is influenced by contributions from genetic predisposition, the aging phenomenon, lifestyle conditions, biomechanical loading and activities, and other health factors (such as diabetes). Attempts to decelerate disc degeneration using various techniques have been reported. However, to date, there has been no proven technique effective for broad clinical application. Granulocyte colony-stimulating factor (GCSF) is a growth factor cytokine that has been shown to enhance the availability of circulating hematopoietic stem cells to the brain and heart as well as their capacity for mobilization of mesenchymal bone marrow stem cells. GCSF also exerts significant increases in circulating neutrophils as well as potent anti-inflammatory effects. In our study, we hypothesize that GCSF can induce bone marrow stem cells differentiation and mobilization to regenerate the degenerated IVD. We found that GCSF had no contribution in disc regeneration or maintenance; however, there were cell proliferation within end plates. The effects of GCSF treatment on end plates might deserve further investigation
Microwave-driven ferromagnet--topological-insulator heterostructures: The prospect for giant spin battery effect and quantized charge pump devices
We study heterostructures where a two-dimensional topological insulator (TI)
is attached to two normal metal (NM) electrodes while an island of a
ferromagnetic insulator (FI) with precessing magnetization covers a portion of
its lateral edges to induce time-dependent exchange field underneath via the
magnetic proximity effect. When the FI island covers both lateral edges, such
device pumps pure spin current in the absence of any bias voltage, thereby
acting as an efficient spin battery with giant output current even at very
small microwave power input driving the precession. When only one lateral edge
is covered by the FI island, both charge and spin current are pumped into the
NM electrodes. We delineate conditions for the corresponding conductances
(current-to-microwave-frequency ratio) to be quantized in a wide interval of
precession cone angles, which is robust with respect to weak disorder and can
be further extended by changes in device geometry.Comment: 7 pages, 7 color figures, PDFLaTe
Broken spin-Hall accumulation symmetry by magnetic field and coexisted Rashba and Dresselhaus interactions
The spin-Hall effect in the two-dimensional electron gas (2DEG) generates
symmetric out-of-plane spin Sz accumulation about the current axis in the
absence of external magnetic field. Here we employ the real space
Landauer-Keldysh formalism [B. K. Nikolic et al., Phys. Rev. Lett. 95, 046601
(2005); Phys. Rev. B 73, 075303 (2006)] by considering a four-terminal setup to
investigate the circumstances in which this symmetry is broken. For the absence
of Dresselhaus interaction, starting from the applied out-of-plane B
corresponding to Zeeman splitting energy 0 - 0.5 times the Rashba hopping
energy tR, the breaking process is clearly seen. The influence of the Rashba
interaction on the magnetization of the 2DEG is studied herein. For coexisted
Rashba tR and Dresselhaus tD spin-orbit couplings in the absence of B,
interchanging tR and tD reverses the entire accumulation pattern.Comment: 3 pages, 2 figures, appears in the proceedings of 10th MMM/INTERMAG
conferenc
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