Terahertz Radiations and Switching Phenomena of Intrinsic Josephson Junctions in High-Temperature Superconductors: Josephson Phase Dynamics in Long- and Short-Ranged Interactions

I. Kakeya
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Abstract

SUMMARY Studies on intrinsic Josephson junctions (IJJs) of cuprate superconductors are reviewed. A system consisting of a few IJJs provides phenomena to test the Josephson phase dynamics and its interaction be-tween adjacent IJJs within a nanometer scale, which is unique to cuprate superconductors. Quasiparticle density of states, which provides direct information on the Cooper-pair formation, is also revealed in the system. In contrast, Josephson plasma emission, which is an electromagnetic wave radiation in the sub-terahertz frequency range from an IJJ stack, arises from the synchronous phase dynamics of hundreds of IJJs coupled globally. This review summarizes a wide range of physical phenomena in IJJ systems having capacitive and inductive couplings with di ff erent nanometer and micrometer length scales, respectively.
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高温超导体中固有约瑟夫森结的太赫兹辐射和开关现象:长、短程相互作用中的约瑟夫森相动力学
综述了铜超导体本征约瑟夫森结(IJJs)的研究。一个由几个ij组成的系统提供了在纳米尺度上测试约瑟夫森相动力学及其相邻ij之间相互作用的现象,这是铜超导体所独有的。准粒子态密度提供了关于库珀对形成的直接信息。相比之下,约瑟夫森等离子体发射是一种次太赫兹频率范围内的电磁波辐射,来自于数百个IJJ的同步相位动态耦合。本文综述了具有不同纳米和微米长度尺度的电容耦合和电感耦合的IJJ系统中广泛的物理现象。
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