自洽波波夫近似中均相玻色气体的凝结和超流体分数

arXiv - PHYS - Quantum Gases Pub Date : 2024-06-28 DOI:arxiv-2406.20021

C. Vianello, L. Salasnich

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引用次数: 0

摘要

我们采用自洽的波波夫近似方法，研究了三维空间中弱相互作用玻色子均匀气体的凝聚态和超流体分数，并将这种方法与其他理论方案进行了比较。与超流体分数不同，我们发现在无限温度下，凝聚态分数是相互作用强度的非单调函数，在气体参数的特征值处呈现全局最大值，并随着温度的升高而增长。这种非单调行为尚未被观测到，但可以利用现有的盒势约束超冷玻色原子实验装置进行测试。我们明确指出了实验感兴趣的参数空间区域，以寻找这种行为，并提供了相关观测值的明确表达式。我们还在半经典近似方法中讨论了有限尺寸效应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Condensate and superfluid fraction of homogeneous Bose gases in a self-consistent Popov approximation

We study the condensate and superfluid fraction of a homogeneous gas of weakly interacting bosons in three spatial dimensions by adopting a self-consistent Popov approximation, comparing this approach with other theoretical schemes. Differently from the superfluid fraction, we find that at finite temperature the condensate fraction is a non-monotonic function of the interaction strength, presenting a global maximum at a characteristic value of the gas parameter, which grows as the temperature increases. This non-monotonic behavior has not yet been observed, but could be tested with the available experimental setups of ultracold bosonic atoms confined in a box potential. We clearly identify the region of parameter space that is of experimental interest to look for this behavior and provide explicit expressions for the relevant observables. Finite size effects are also discussed within a semiclassical approximation.

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arXiv - PHYS - Quantum Gases

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