超冷原子约瑟夫森结中的夏皮罗阶跃观测

arXiv - PHYS - Quantum Gases Pub Date : 2024-09-05 DOI:arxiv-2409.03340

Erik Bernhart, Marvin Röhrle, Vijay Pal Singh, Ludwig Mathey, Luigi Amico, Herwig Ott

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引用次数: 0

摘要

驱动型超导约瑟夫森结的电流-电压特性显示出离散的阶跃。这一现象由悉尼-沙皮罗（SydneyShapiro）发现，并形成了当今的电压标准。在这里，我们报告了在超冷原子气体中的驱动约瑟夫森结中观察到的沙皮罗阶跃。我们证明，这些阶跃表现出普遍特征，并为我们在实验中直接观察到的微观耗散动力学提供了关键的洞察力。最重要的是，这些步骤与声子发射和孤子成核直接相关。这些实验结果得到了基于经典场动力学的大量数值模拟的支持，代表了电压标准向超冷量子气体领域的转移。

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Observation of Shapiro steps in an ultracold atomic Josephson junction

The current-voltage characteristic of a driven superconducting Josephson junction displays discrete steps. This phenomenon, discovered by Sydney Shapiro, forms today's voltage standard. Here, we report the observation of Shapiro steps in a driven Josephson junction in a gas of ultracold atoms. We demonstrate that the steps exhibit universal features, and provide key insight into the microscopic dissipative dynamics that we directly observe in the experiment. Most importantly, the steps are directly connected to phonon emission and soliton nucleation. The experimental results are underpinned by extensive numerical simulations based on classical-field dynamics and represent the transfer of the voltage standard to the realm of ultracold quantum gases.

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arXiv - PHYS - Quantum Gases

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