超导体-半导体拓扑约瑟夫森结的研究进展

William F. Schiela, Peng Yu, Javad Shabani
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摘要

马约拉纳束缚态(MBSs)是一种作为自身反粒子的准粒子。据预测,它们会作为零能量模式出现在拓扑超导体的边界局部。迄今为止,还没有已知的本征拓扑超导体。然而,通过将具有强自旋轨道耦合的传统超导体和半导体连接起来,就有可能创造出一个承载拓扑态的系统。因此,外延超导体和半导体已成为一种极具吸引力的材料系统,它具有原子级的锐利界面,在结合约瑟夫森结的器件制造中具有广泛的灵活性。我们讨论了拓扑超导的基本原理,并深入探讨了如何超越当前最先进的实验。我们认为,实现 MBS 物理的最终成功需要观测到非阿贝尔编织和聚变实验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Progress in Superconductor-Semiconductor Topological Josephson Junctions

Progress in Superconductor-Semiconductor Topological Josephson Junctions
Majorana bound states (MBSs) are quasiparticles that are their own antiparticles. They are predicted to emerge as zero-energy modes localized at the boundary of a topological superconductor. No intrinsic topological superconductor is known to date. However, by interfacing conventional superconductors and semiconductors with strong spin-orbit coupling, it is possible to create a system hosting topological states. Hence, epitaxial superconductors and semiconductors have emerged as an attractive material system with atomically sharp interfaces and broad flexibility in device fabrications incorporating Josephson junctions. We discuss the basics of topological superconductivity and provide insight into how to go beyond current state-of-the-art experiments. We argue that the ultimate success in realizing MBS physics requires the observation of non-Abelian braiding and fusion experiments.
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