支持Z3和Z4参量的欠阻尼偏流约瑟夫森结的绝缘状态

arXiv: Superconductivity Pub Date : 2020-12-16 DOI:10.1103/PhysRevB.103.L180505

A. Svetogorov, D. Loss, J. Klinovaja

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引用次数: 4

摘要

我们分析地研究了支持$\mathbb{Z}_n$对偶子的电流偏置拓扑约瑟夫森结。首先，我们证明了在无穷大的系统中，结点上的一对参量可以处于$n$不同的状态;对于欠阻尼结的绝缘状态，结相电位的$2\pi{n}$周期性导致最大电流的显著抑制$I_m$。其次，我们研究了一个现实的有限大小系统的行为，该系统具有以分裂$\delta$为特征的避免平交道口。我们考虑了两种极限情况:当相演化可以被认为是绝热的，这导致有效势的周期性降低;相反的情况下，当朗道-齐纳跃迁恢复相势的$2\pi{n}$周期性。由此产生的电流$I_m$在相反的极限上呈指数级不同，这使我们能够提出一种新的检测方法，通过测量$I_m$在不同分裂$\delta$值时的实验来建立系统中参量的外观。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Insulating regime of an underdamped current-biased Josephson junction supporting Z3 and Z4 parafermions

We study analytically a current-biased topological Josephson junction supporting $\mathbb{Z}_n$ parafermions. First, we show that in an infinite-size system a pair of parafermions on the junction can be in $n$ different states; the $2\pi{n}$ periodicity of the phase potential of the junction results in a significant suppression of the maximal current $I_m$ for an insulating regime of the underdamped junction. Second, we study the behaviour of a realistic finite-size system with avoided level crossings characterized by splitting $\delta$. We consider two limiting cases: when the phase evolution may be considered adiabatic, which results in decreased periodicity of the effective potential, and the opposite case, when Landau-Zener transitions restore the $2\pi{n}$ periodicity of the phase potential. The resulting current $I_m$ is exponentially different in the opposite limits, which allows us to propose a new detection method to establish the appearance of parafermions in the system experimentally, based on measuring $I_m$ at different values of the splitting $\delta$.

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arXiv: Superconductivity

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