Vortex-induced anomalies in the superconducting quantum interference patterns of topological insulator Josephson junctions

IF 5.4 1区 物理与天体物理 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY npj Quantum Materials Pub Date : 2024-09-17 DOI:10.1038/s41535-024-00684-w
Arman Rashidi, William Huynh, Binghao Guo, Sina Ahadi, Susanne Stemmer
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Abstract

The superconducting quantum interference (SQI) patterns of Josephson junctions fabricated from hybrid structures that interface an s-wave superconductor with a topological insulator can be used to detect signatures of novel quasiparticle states. Here, we compare calculated and experimental SQI patterns obtained from hybrid junctions fabricated on cadmium arsenide, a two-dimensional topological insulator. The calculations account for the effects of Abrikosov (anti-) vortices in the superconducting contacts. They describe the experimentally observed deviations of the SQI from an ideal Fraunhofer pattern, including anomalous phase shifts, node lifting, even/odd modulations of the lobes, irregular lobe spacing, and an asymmetry in the positive/negative magnetic field. We also show that under a current bias, these vortices enter the electrodes even if there is no intentionally applied external magnetic field. The results show that Abrikosov vortices in the electrodes of the junctions can explain many of the observed anomalies in the SQI patterns of topological insulator Josephson junctions.

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拓扑绝缘体约瑟夫森结超导量子干涉模式中的涡旋诱导反常现象
约瑟夫森结的超导量子干涉(SQI)模式是通过将 s 波超导体与拓扑绝缘体相接的混合结构制作而成的,可用于探测新型准粒子态的特征。在这里,我们比较了在二维拓扑绝缘体砷化镉上制作的混合结所获得的计算和实验 SQI 图谱。计算考虑了超导接触中的阿布里科索夫(反)涡旋效应。它们描述了实验观察到的 SQI 与理想弗劳恩霍夫模式的偏差,包括异常相移、节点抬升、裂片的偶数/偶数调制、不规则裂片间距以及正/负磁场的不对称。我们还表明,在电流偏压下,即使没有有意施加外部磁场,这些涡流也会进入电极。结果表明,结电极中的阿布里科索夫涡旋可以解释拓扑绝缘体约瑟夫森结的 SQI 模式中观察到的许多异常现象。
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来源期刊
npj Quantum Materials
npj Quantum Materials Materials Science-Electronic, Optical and Magnetic Materials
CiteScore
10.60
自引率
3.50%
发文量
107
审稿时长
6 weeks
期刊介绍: npj Quantum Materials is an open access journal that publishes works that significantly advance the understanding of quantum materials, including their fundamental properties, fabrication and applications.
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