通过涡旋轨迹相关性揭示超固态秩序

arXiv - PHYS - Quantum Gases Pub Date : 2024-07-02 DOI:arxiv-2407.02481

Subrata Das, Vito W. Scarola

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引用次数: 0

摘要

继最近在$^{164}\text{Dy}$的双极玻色-爱因斯坦凝聚体（BECs）中发现超固体的实验证据之后，实验研究超固体--一种同时存在的超流体和固体--的内在双重性质的任务变得更加重要。我们引入了超固体阶次参数，利用涡旋-涡旋轨迹相关性来同时揭示底层固体的周期密度和超流体的单一度量。我们提议利用现有技术进行实验，以光学方法创建和成像双极性 BEC 的涡旋偶极子轨迹。我们用数值方法测试了我们的观测指标，发现涡旋-涡旋相关性揭示了超固晶格结构，同时将其与超流性区分开来。我们的方法为利用涡旋-轨迹相关性来研究超固态从其动力学和相变中产生的基本特性的实验奠定了基础。

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Unveiling Supersolid Order via Vortex Trajectory Correlations

The task of experimentally investigating the inherently dual properties of a supersolid, a simultaneous superfluid and solid, has become more critical following the recent experimental evidence for supersolids in dipolar Bose-Einstein condensates (BECs) of $^{164}\text{Dy}$. We introduce a supersolid order parameter that uses vortex-vortex trajectory correlations to simultaneously reveal the periodic density of the underlying solid and superfluidity in a single measure. We propose experiments using existing technology to optically create and image trajectories of vortex dipoles in dipolar BECs. We numerically test our observable and find that vortex-vortex correlations reveal the supersolid lattice structure while distinguishing it from superfluidity. Our method sets the stage for experiments to use vortex trajectory correlations to investigate fundamental properties of supersolids arising from their dynamics and phase transitions.

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arXiv - PHYS - Quantum Gases

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