Composite-fermion crystallites in quantum dots

Bedanov V M; Chia-Chen Chang; Dev G; Girvin S M; Gun Sang Jeon; Jain J K; Jain J K; Jainendra K Jain; Maksym P A; Ruan W Y; Ruan W Y; Schweigert V A; Seki T; Su B; Su B; Xie X C

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Composite-fermion crystallites in quantum dots

Authors: Bedanov V M
Chia-Chen Chang
Dev G
Girvin S M
Gun Sang Jeon
Jain J K
Jain J K
Jainendra K Jain
Maksym P A
Ruan W Y
Ruan W Y
Schweigert V A
Seki T
Su B
Su B
Xie X C
Publication date: 13 October 2003
Publisher: 'IOP Publishing'
Doi

Abstract

The correlations in the ground state of interacting electrons in a two-dimensional quantum dot in a high magnetic field are known to undergo a qualitative change from liquid-like to crystal-like as the total angular momentum becomes large. We show that the composite-fermion theory provides an excellent account of the states in both regimes. The quantum mechanical formation of composite fermions with a large number of attached vortices automatically generates omposite fermion crystallites in finite quantum dots.Comment: 5 pages, 3 figure

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