Novel Properties of The Apparent Metal-Insulator Transition in
  Two-Dimensional Systems

A. M. Finkel’stein; B. W. Dodson; C. C. Li; D. Belitz; D. C. Tsui; D. Popovic; D. Shahar; D. Shahar; E. Abrahams; Hadas Shtrikman; J. Yoon; M. C. Maliepaard; M. Y. Simmons; N. F. Mott; P. T. Coleridge; S. V. Kravchenko; S. V. Kravchenko; S. V. Kravchenko; T. Ando; U. Meirav; V. Dobrosavljevic; V. M. Pudalov; Y. Hanein; Y. Hanein; Y. Hanein

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Novel Properties of The Apparent Metal-Insulator Transition in Two-Dimensional Systems

Authors: A. M. Finkel’stein
B. W. Dodson
C. C. Li
D. Belitz
D. C. Tsui
D. Popovic
D. Shahar
D. Shahar
E. Abrahams
Hadas Shtrikman
J. Yoon
M. C. Maliepaard
M. Y. Simmons
N. F. Mott
P. T. Coleridge
S. V. Kravchenko
S. V. Kravchenko
S. V. Kravchenko
T. Ando
U. Meirav
V. Dobrosavljevic
V. M. Pudalov
Y. Hanein
Y. Hanein
Y. Hanein
Publication date: 17 July 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The low-temperature conductivity of low-density, high-mobility, two-dimensional hole systems in GaAs was studied. We explicitly show that the metal-insulator transition, observed in these systems, is characterized by a well-defined critical density, p_0c. We also observe that the low-temperature conductivity of these systems depends linearly on the hole density, over a wide density range. The high-density linear conductivity extrapolates to zero at a density close to the critical density.Comment: 4 Figure

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