The Droplet State and the Compressibility Anomaly in Dilute 2D Electron
  Systems

A. A. Pastor; B. Tanatar; C. Dultz; E. Abrahams; E. Abrahams; J. P. Eisenstein; J. P. Eisenstein; J. Shi; J. Shi; Junren Shi; Q. Si; S. He; S. Ilani; S. Ilani; S. T. Chui; X. C. Xie; Y. Wang

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The Droplet State and the Compressibility Anomaly in Dilute 2D Electron Systems

Authors: A. A. Pastor
B. Tanatar
C. Dultz
E. Abrahams
E. Abrahams
J. P. Eisenstein
J. P. Eisenstein
J. Shi
J. Shi
Junren Shi
Q. Si
S. He
S. Ilani
S. Ilani
S. T. Chui
X. C. Xie
Y. Wang
Publication date: 26 March 2001
Publisher: 'American Physical Society (APS)'
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Abstract

We investigate the space distribution of carrier density and the compressibility of two-dimensional (2D) electron systems by using the local density approximation. The strong correlation is simulated by the local exchange and correlation energies. A slowly varied disorder potential is applied to simulate the disorder effect. We show that the compressibility anomaly observed in 2D systems which accompanies the metal-insulator transition can be attributed to the formation of the droplet state due to disorder effect at low carrier densities.Comment: 4 pages, 3 figure

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