超流体和超固体原子气体中的反常多普勒效应

arXiv - PHYS - Quantum Gases Pub Date : 2024-08-29 DOI:arxiv-2408.16489

Tomasz Zawiślak, Marija Šindik, Sandro Stringari, Alessio Recati

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引用次数: 0

摘要

我们以原子气体平台为重点，研究了具有伽利略不变性被打破的超流体中零温度下的多普勒效应，并寄存了永久电流。我们考虑了伽利略不变性被明确打破（通过外部周期势）或自发打破的情况，就像在超固体中发生的那样。在第一种情况下，静止电流的存在通过与超流体部分密度导数成正比的反常多普勒项影响声音（第四声）的传播。在超固体中，根据戈德斯通定理，超流体和晶体混合性质的不同声音可以传播，每种声音的多普勒效应可能完全不同，包括低声子分支可能为负。我们获得了超流体和超固体流体力学理论的分析预测，并将其与弱相互作用原子玻色-爱因斯坦凝聚体的时变模拟数值结果进行了比较。

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Anomalous Doppler effect in superfluid and supersolid atomic gases

We investigate the Doppler effect at zero temperature in superfluids with broken Galilean invariance and hosting permanent currents, with special focus on atomic gas platforms. We consider the case when Galilean invariance is broken explicitly (by an external periodic potential) or spontaneously, as it happens in a supersolid. In the first case, the presence of a stationary current affects the propagation of sound (fourth sound) via an anomalous Doppler term proportional to the density derivative of the superfluid fraction. In supersolids, where, according to Goldstone theorem, distinct sounds of hybrid superfluid and crystal nature can propagate, the Doppler effect can be very different for each sound, including the possibility of being negative for the lower phonon branch. We obtain analytical predictions within the hydrodynamic theories for superfluids and supersolids, which are compared with the numerical results of time-dependent simulations for weakly interacting atomic Bose-Einstein condensates.

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arXiv - PHYS - Quantum Gases

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