Fragmented Condensate Ground State of Trapped Weakly Interacting Bosons
  in Two Dimensions

A. A. Svidzinsky; A. D. Jackson; A. D. Jackson; A. J. Leggett; B. Mottelson; C. N. Yang; D. L. Feder; D. S. Rokhsar; E. R. Davidson; G. F. Bertsch; G. M. Kavoulakis; Hui Hu; K. W. Madison; K.-P. Marzlin; L. Kaplan; Lee Chang; M. R. Matthews; N. K. Wilkin; N. K. Wilkin; P. Nozières; R. A. Butts; R. A. Smith; R. Onofrio; R. S. Berry; Shi-Qun Li; T. Papenbrock; T.-L. Ho; Weiping Zhang; Wen-Jui Huang; Xia-Ji Liu; Yu-Zhu Wang

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Fragmented Condensate Ground State of Trapped Weakly Interacting Bosons in Two Dimensions

Authors: A. A. Svidzinsky
A. D. Jackson
A. D. Jackson
A. J. Leggett
B. Mottelson
C. N. Yang
D. L. Feder
D. S. Rokhsar
E. R. Davidson
G. F. Bertsch
G. M. Kavoulakis
Hui Hu
K. W. Madison
K.-P. Marzlin
L. Kaplan
Lee Chang
M. R. Matthews
N. K. Wilkin
N. K. Wilkin
P. Nozières
R. A. Butts
R. A. Smith
R. Onofrio
R. S. Berry
Shi-Qun Li
T. Papenbrock
T.-L. Ho
Weiping Zhang
Wen-Jui Huang
Xia-Ji Liu
Yu-Zhu Wang
Publication date: 1 January 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The ground state and its structure for a rotating, harmonically trapped N-Boson system with a weak repulsive contact interaction are studied as the angular momentum L increases up to 3N. We show that the ground state is generally a fragmented condensate due to angular momentum conservation. In response to an (arbitrarily weak) asymmetric perturbation of the trap, however, the fragmented ground state can be transformed into a single condensate state. We manifest this intrinsic instability by calculating the conditional probability distributions, which show patterns analogous to the boson density distributions predicted by mean-field theory.Comment: 4 pages, 4 ps figure

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Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences

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