Condensed Matter Theory

Analysis of trapped quantum degenerate dipolar excitons

Applied Physics Letters 89:15 (2006)

Authors:

R Rapaport, G Chen, S Simon

Abstract:

The dynamics of quantum degenerate two-dimensional dipolar excitons confined in electrostatic traps is analyzed and compared to recent experiments. The model results stress the importance of artificial trapping for achieving and sustaining a quantum degenerate exciton fluid in such systems and suggest that a long-lived, spatially uniform, and highly degenerate exciton system was experimentally produced in those electrostatic traps. © 2006 American Institute of Physics.

Topological Quantum Compiling

(2006)

Authors:

L Hormozi, G Zikos, NE Bonesteel, SH Simon

The effect of optically-induced random anisotropic disorder on a two-dimensional electron system

Solid State Communications 140:2 (2006) 94-99

Authors:

GP Melhuish, AS Plaut, SH Simon, MC Holland, CR Stanley

Abstract:

We have studied the effect of optically-induced random, anisotropic disorder on the magnetoresistance of a Al0.3Ga0.7As/ GaAs two-dimensional electron system by exposing the heterojunction to an asymmetric laser speckle pattern. Changes in the amplitude of the Shubnikov-de Haas oscillations can be explained in terms of easy and hard conductivity paths parallel and perpendicular to the long axis of the oval speckle grains. We also observe corresponding changes in the electron scattering rates. © 2006 Elsevier Ltd. All rights reserved.

The minority game: A statistical physics perspective

PHYSICA A 370:1 (2006) 7-11

Abstract:

A brief review is given of the minority game, an idealized model stimulated by a market of speculative agents, and its complex many-body behaviour. Particular consideration is given to analytic results for the model rather than discussions of its relevance in real-world situations. (c) 2006 Elsevier B.V. All rights reserved.

Vortex lattices in rotating atomic Bose gases with non-local interactions

Solid State Communications 140:2 (2006) 61-65

Authors:

NR Cooper, EH Rezayi, SH Simon

Abstract:

We study the groundstates of rotating atomic Bose gases with non-local interactions. We focus on the weak-interaction limit of a model involving s- and d-wave interactions. With increasing d-wave interaction, the mean-field groundstate undergoes a series of transitions between vortex lattices of different symmetries (triangular, square, "stripe" and "bubble" crystal phases). We discuss the stability of these phases to quantum fluctuations. Using exact diagonalization studies, we show that with increasing d-wave interaction, the incompressible Laughlin state at filling factor ν = 1 / 2 is replaced by compressible stripe and bubble states. © 2006 Elsevier Ltd. All rights reserved.