A density-functional approach to fermionization in the 1D Bose gas

Journal of Physics B Pub Date : 2003-11-10 DOI:10.1088/0953-4075/37/7/073
J. Brand
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引用次数: 15

Abstract

A time-dependent Kohn–Sham scheme for 1D bosons with contact interaction is derived based on a model of spinor fermions. This model is specifically designed for the study of the strong interaction regime close to the Tonks gas. It allows us to treat the transition from the strongly interacting Tonks–Girardeau to the weakly interacting quasicondensate regime and provides an intuitive picture of the extent of fermionization in the system. An adiabatic local-density approximation is devised for the study of time-dependent processes. This scheme is shown to yield not only accurate ground-state properties but also overall features of the elementary excitation spectrum, which is described exactly in the Tonks-gas limit.
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一维玻色气体中费米化的密度泛函方法
基于一个旋子费米子模型,导出了一维玻色子具有接触相互作用的时变Kohn-Sham格式。该模型是专门为研究靠近唐克斯气体的强相互作用区而设计的。它允许我们处理从强相互作用的Tonks-Girardeau到弱相互作用的准致密状态的转变,并提供了系统中费米化程度的直观图像。为研究时变过程,提出了一个绝热的局部密度近似。该方案不仅能得到精确的基态性质,而且还能得到基本激发谱的总体特征,这在唐克斯-气体极限下得到了准确的描述。
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Journal of Physics B
Journal of Physics B
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