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Many-body dynamics of a Bose system with attractive interactions on a
ring
release_jptr4anlhfev5ef4zsom25l4mq
by
Weibin Li,
Xiaotao Xie,
Zhiming Zhan,
Xiaoxue Yang
Released
as a article
.
2005
Abstract
We investigate the many-body dynamics of an effectively attractive
one-dimensional Bose system confined in a toroidal trap. The mean-field theory
predicts that a bright-soliton state will be formed when increasing the
interparticle interaction over a critical point. The study of quantum many-body
dynamics in this paper reveals that there is a modulation instability in a
finite Bose system correspondingly. We show that Shannon entropy becomes
irregular near and above the critical point due to quantum correlations. We
also study the dynamical behavior of the instability by exploring the momentum
distribution and the fringe visibility, which can be verified experimentally by
releasing the trap
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