稀释玻色气体的热力学:超越玻色-爱因斯坦凝聚二元混合物的平均场理论

arXiv: Quantum Gases Pub Date : 2020-08-12 DOI:10.1103/physreva.102.063303

Miki Ota, S. Giorgini

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引用次数: 12

摘要

我们通过建立一个超平均场波波夫理论来研究二元玻色混合物的热力学性质，该理论适当地包括了密度和自旋通道中的量子涨落和热涨落的影响。关键热力学量的结果，如等温压缩率和磁化率，是由大正则势的微扰计算得出的。我们发现热波动对二元混合物的混相条件起着至关重要的作用，即使混合物在零温度下可溶，也有利于在有限温度下的相分离，正如之前的工作所预测的那样[Ota et al.， Phys.]。Rev. Lett. 123, 075301(2019)]。我们进一步研究了在种内相互作用以及两组分质量不对称的情况下二元混合物的混相条件。此外，我们讨论了混合物的超流体行为和Andreev-Bashkin效应的温度依赖性。

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Thermodynamics of dilute Bose gases: Beyond mean-field theory for binary mixtures of Bose-Einstein condensates

We study the thermodynamic properties of binary Bose mixtures, by developing a beyond mean-field Popov theory which properly includes the effects of quantum and thermal fluctuations in both the density and spin channels. Results for key thermodynamic quantities, such as the isothermal compressibility and the magnetic susceptibility, are derived from a perturbative calculation of the grand-canonical potential. We find that thermal fluctuations can play a crucial role on the miscibility condition of a binary mixture, favoring phase separation at finite temperature even if the mixture is soluble at zero temperature, as already anticipated in a previous work [Ota et al., Phys. Rev. Lett. 123, 075301 (2019)]. We further investigate the miscibility condition for binary mixtures in the presence of asymmetry in the intra-species interactions, as well as in the masses of the two components. Furthermore, we discuss the superfluid behavior of the mixture and the temperature dependence of the Andreev-Bashkin effect.

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arXiv: Quantum Gases

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