Cooperative Ring Exchange and Quantum Melting of Vortex Lattices in
  Atomic Bose-Einstein Condensates

Dung-Hai Lee; F.D.M. Haldane; G. Baskaran; J.R. Abo-Shaeer; Jairo Sinova; K.W. Madison; N.K. Wilkin; N.R. Cooper; P. Engels; Ph. Choquard; Q. Niu; R.Y. Chiao; S. Kivelson; S. Kivelson; S. Viefers; S.M. Girvin; S.T. Chui; Tarun Kanti Ghosh; Tin-Lun Ho; Tin-Lun Ho; W.Y. Shih

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Cooperative Ring Exchange and Quantum Melting of Vortex Lattices in Atomic Bose-Einstein Condensates

Authors: Dung-Hai Lee
F.D.M. Haldane
G. Baskaran
J.R. Abo-Shaeer
Jairo Sinova
K.W. Madison
N.K. Wilkin
N.R. Cooper
P. Engels
Ph. Choquard
Q. Niu
R.Y. Chiao
S. Kivelson
S. Kivelson
S. Viefers
S.M. Girvin
S.T. Chui
Tarun Kanti Ghosh
Tin-Lun Ho
Tin-Lun Ho
W.Y. Shih
Publication date: 27 November 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Cooperative ring-exchange is suggested as a mechanism of quantum melting of vortex lattices in a rapidly-rotating quasi two dimensional atomic Bose-Einstein condensate (BEC). Using an approach pioneered by Kivelson et al. [Phys. Rev. Lett. {\bf 56}, 873 (1986)] for the fractional quantized Hall effect, we calculate the condition for quantum melting instability by considering large-correlated ring exchanges in a two-dimensional Wigner crystal of vortices in a strong `pseudomagnetic field' generated by the background superfluid Bose particles. BEC may be profitably used to address issues of quantum melting of a pristine Wigner solid devoid of complications of real solids.Comment: 7 pages, 1 figure, to appear in Physical Review

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