Thermal Phase Fluctuations in Narrow Superfluid Rings

arXiv - PHYS - Quantum Gases Pub Date : 2024-07-05 DOI:arxiv-2407.04229
Parth Sabharwal, Daniel G. Allman, Pradipta Debnath, Kevin C. Wright
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Abstract

Using matter-wave interference, we have investigated thermal phase fluctuations in narrow coplanar, concentric rings of ultracold fermionic superfluids. We found that the correlation length decreases with number density, consistent with theoretical expectations. We also observed that increasing the coupling between the rings leads to greater overall coherence in the system. The phase fluctuations increased with a change from periodic to closed boundary conditions as we applied a potential barrier at one point in a ring. These results are relevant for the implementation of proposals to utilize ultracold quantum gases in large and elongated circuit-like geometries, especially those that require deterministic preparation and control of quantized circulation states.
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窄超流体环中的热相波动
利用物质波干涉,我们研究了超冷费米子超流体窄共面同心环中的热相位波动。我们发现,相关长度随数量密度的增加而减小,这与理论预期一致。我们还观察到,增加环之间的耦合会提高系统的整体一致性。当我们在圆环的某一点施加势垒时,相位波动随着边界条件从周期性到封闭性的变化而增加。这些结果与在大型拉长电路样几何结构中利用超冷量子气体的建议的实施相关,特别是那些需要确定性制备和控制量化循环状态的建议。
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arXiv - PHYS - Quantum Gases
arXiv - PHYS - Quantum Gases
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