"Finite-size Monte Carlo results for anisotropic quantum Hall liquids" by Orion Ciftja

Selected Works of Orion Ciftja

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Finite-size Monte Carlo results for anisotropic quantum Hall liquids

Chemistry & Physics Faculty Publications

Orion Ciftja, Prairie View A and M University
Brittney Cornelius, Prairie View A and M University
Kesha Brown, Prairie View A and M University
Emery Taylor, Prairie View A and M University

Document Type

Article

Publication Date

5-5-2011

Abstract

At low temperatures, two-dimensional electron systems in a perpendicular magnetic field exhibit remarkable quantum phenomena. In these extreme conditions, strongly correlated electron systems stabilize in different quantum phases as the filling factor of Landau levels is varied. In this Brief Report we present finite-size Monte Carlo simulation results for anisotropic quantum Hall liquid states observed at certain even-denominator filling factors. The anisotropic electronic liquid phases are described by a broken rotational symmetry wave function. Our investigations of systems of few electrons in disk geometry indicate that an anisotropic liquid-crystalline quantum Hall phase with broken rotational symmetry is energetically favored relative to an isotropic liquid one. © 2011 American Physical Society.

Citation Information

Orion Ciftja, Brittney Cornelius, Kesha Brown and Emery Taylor. "Finite-size Monte Carlo results for anisotropic quantum Hall liquids" (2011)
Available at: http://works.bepress.com/orion-ciftja/62/