关于约瑟夫森效应和双结中锯齿电流的费曼悖论

IF 2.3 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Physics Letters A Pub Date : 2024-11-17 DOI:10.1016/j.physleta.2024.130063

Zhi-Lei Zhang , Guo-Jian Qiao , C.P. Sun

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引用次数: 0

摘要

我们重新审视了约瑟夫森效应的费曼方法，该方法采用一对线性耦合方程进行建模。我们发现，当耦合强度明显小于电压时，精确解可以解释交流约瑟夫森效应，但在任何实际情况下都无法产生直流约瑟夫森效应。为了解决这一根本性差异，我们根据 BCS 理论推导出了两个相互连接的超导体的金兹堡-朗道（GL）耦合方程。这些方程揭示了在费曼方法中被忽视的非线性耦合在描述超导体中自发对称性破缺时至关重要，而对称性破缺是实现直流约瑟夫森效应的关键因素。当耦合 GL 方程应用于双结时，会出现锯齿电流模式，这是费曼方法无法实现的结果。

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Feynman paradox about the Josephson effect and a sawtooth current in the double junction

We revisit the Feynman approach to the Josephson effect, which employs a pair of linear coupling equations for its modeling. It is found that while the exact solutions can account for the AC Josephson effect when the coupling strength is significantly less than the voltage, they fail to produce the DC Josephson effect in any practical scenario. To address this fundamental discrepancy, we derive the coupled Ginzburg-Landau (GL) equations for two interconnected superconductors based on BCS theory. These equations reveal that the nonlinear coupling, which is overlooked in the Feynman approach, is crucial in describing the spontaneous symmetry breaking in superconductors, a critical factor for achieving the DC Josephson effect. When the coupled GL equations are applied to a double junction, a sawtooth current pattern emerges, a result unattainable via the Feynman approach.

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来源期刊

Physics Letters A 物理-物理：综合

CiteScore

5.10

自引率

3.80%

发文量

493

审稿时长

30 days

期刊介绍： Physics Letters A offers an exciting publication outlet for novel and frontier physics. It encourages the submission of new research on: condensed matter physics, theoretical physics, nonlinear science, statistical physics, mathematical and computational physics, general and cross-disciplinary physics (including foundations), atomic, molecular and cluster physics, plasma and fluid physics, optical physics, biological physics and nanoscience. No articles on High Energy and Nuclear Physics are published in Physics Letters A. The journal''s high standard and wide dissemination ensures a broad readership amongst the physics community. Rapid publication times and flexible length restrictions give Physics Letters A the edge over other journals in the field.