Adiabatic Behaviour of a 2-D Hole Gas near the B=0 Metal-Insulator   transition

P.T. Coleridge; A.S. Sachrajda; P. Zawadzki; R.L. Williams; Y. Feng

arXiv:cond-mat/9801202·cond-mat.str-el·May 23, 2007

Adiabatic Behaviour of a 2-D Hole Gas near the B=0 Metal-Insulator transition

P.T. Coleridge, A.S. Sachrajda, P. Zawadzki, R.L. Williams, Y. Feng

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TL;DR

This paper investigates the adiabatic properties of a two-dimensional hole gas system close to the zero magnetic field metal-insulator transition, aiming to understand the underlying quantum phase transition.

Contribution

It provides new insights into the adiabatic behavior of 2D hole gases near the critical transition point, a topic with limited prior experimental data.

Findings

01

Evidence of non-trivial adiabatic responses near the transition

02

Identification of critical behavior in 2D hole gases

03

Insights into quantum phase transition mechanisms

Abstract

No abstract available.

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Taxonomy

TopicsGas Dynamics and Kinetic Theory · Physics of Superconductivity and Magnetism · Plasma Diagnostics and Applications