4,267 research outputs found
Specific Plateaus of the Quantum Hall Effect Induced by an Applied Bias
The spectrum and the eigenstates of a finite 2D tight-binding electronic
system, with Dirichlet boundary conditions, in magnetic field and external
linear potential are studied. The eigenstates show an equipotential character
and may cross the plaquette in the direction perpendicular to the electric
field. When leads are added to the plaquette, the channels carrying the current
may be shortcut by equipotentials, resulting in additional plateaus situated
inbetween the usual IQHE plateaus. This idea is confirmed by a numerical
calculation within the four-terminal Landauer-B\"{u}ttiker approach.Comment: 9 pages, revtex, 2 gif figures and 5 postscript figure
Research and education for the development of integrated crop-livestock-fish farming systems in the tropics
There is a vast potential for Asia's numerous and needy small-scale farmers to enjoy the benefits of integration of aquaculture into farming systems. This publication attempts to create a framework for an interdisciplinary approach to research and education in integrated farming - a fusion of agriculture and aquaculture sciences.Integrated farming, Research, Education, Tropics
Anomalous dephasing of bosonic excitons interacting with phonons in the vicinity of the Bose-Einstein condensation
The dephasing and relaxation kinetics of bosonic excitons interacting with a
thermal bath of acoustic phonons is studied after coherent pulse excitation.
The kinetics of the induced excitonic polarization is calculated within
Markovian equations both for subcritical and supercritical excitation with
respect to a Bose-Einstein condensation (BEC). For excited densities n below
the critical density n_c, an exponential polarization decay is obtained, which
is characterized by a dephasing rate G=1/T_2. This dephasing rate due to phonon
scattering shows a pronounced exciton-density dependence in the vicinity of the
phase transition. It is well described by the power law G (n-n_c)^2 that can be
understood by linearization of the equations around the equilibrium solution.
Above the critical density we get a non-exponential relaxation to the final
condensate value p^0 with |p(t)|-|p^0| ~1/t that holds for all densities.
Furthermore we include the full self-consistent Hartree-Fock-Bogoliubov (HFB)
terms due to the exciton-exciton interaction and the kinetics of the anomalous
functions F_k= . The collision terms are analyzed and an
approximation is used which is consistent with the existence of BEC. The
inclusion of the coherent x-x interaction does not change the dephasing laws.
The anomalous function F_k exhibits a clear threshold behaviour at the critical
density.Comment: European Physical Journal B (in print
Spontaneous, collective coherence in driven, dissipative cavity arrays
We study an array of dissipative tunnel-coupled cavities, each interacting
with an incoherently pumped two-level emitter. For cavities in the lasing
regime, we find correlations between the light fields of distant cavities,
despite the dissipation and the incoherent nature of the pumping mechanism.
These correlations decay exponentially with distance for arrays in any
dimension but become increasingly long ranged with increasing photon tunneling
between adjacent cavities. The interaction-dominated and the
tunneling-dominated regimes show markedly different scaling of the correlation
length which always remains finite due to the finite photon trapping time. We
propose a series of observables to characterize the spontaneous build-up of
collective coherence in the system.Comment: 9 pages, 4 figures, including supplemental material (with 4 pages, 1
figure). This is a shorter version with some modifications in the
supplemental material (a gap in the proof was closed and calculations
significantly generalized and improved
Influence of carrier-carrier and carrier-phonon correlations on optical absorption and gain in quantum-dot systems
A microscopic theory is used to study the optical properties of semiconductor
quantum dots. The dephasing of a coherent excitation and line-shifts of the
interband transitions due to carrier-carrier Coulomb interaction and
carrier-phonon interaction are determined from a quantum kinetic treatment of
correlation processes. We investigate the density dependence of both mechanisms
and clarify the importance of various dephasing channels involving the
localized and delocalized states of the system.Comment: 12 pages, 10 figure
Polarons in semiconductor quantum-dots and their role in the quantum kinetics of carrier relaxation
While time-dependent perturbation theory shows inefficient carrier-phonon
scattering in semiconductor quantum dots, we demonstrate that a quantum kinetic
description of carrier-phonon interaction predicts fast carrier capture and
relaxation. The considered processes do not fulfill energy conservation in
terms of free-carrier energies because polar coupling of localized quantum-dot
states strongly modifies this picture.Comment: 6 pages, 6 figures, accepted for publication in Phys.Rev.
Optical properties of self-organized wurtzite InN/GaN quantum dots: A combined atomistic tight-binding and full configuration interaction calculation
In this work we investigate the electronic and optical properties of
self-assembled InN/GaN quantum dots. The one-particle states of the
low-dimensional heterostructures are provided by a tight-binding model that
fully includes the wurtzite crystal structure on an atomistic level. Optical
dipole and Coulomb matrix elements are calculated from these one-particle wave
functions and serve as an input for full configuration interaction
calculations. We present multi-exciton emission spectra and discuss in detail
how Coulomb correlations and oscillator strengths are changed by the
piezoelectric fields present in the structure. Vanishing exciton and biexciton
ground state emission for small lens-shaped dots is predicted.Comment: 3 pages, 2 figure
Relaxation properties of the quantum kinetics of carrier-LO-phonon interaction in quantum wells and quantum dots
The time evolution of optically excited carriers in semiconductor quantum
wells and quantum dots is analyzed for their interaction with LO-phonons. Both
the full two-time Green's function formalism and the one-time approximation
provided by the generalized Kadanoff-Baym ansatz are considered, in order to
compare their description of relaxation processes. It is shown that the
two-time quantum kinetics leads to thermalization in all the examined cases,
which is not the case for the one-time approach in the intermediate-coupling
regime, even though it provides convergence to a steady state. The
thermalization criterion used is the Kubo-Martin-Schwinger condition.Comment: 7 pages, 8 figures, accepted for publication in Phys. Rev.
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