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Investigation of Supercurrent in the Quantum Hall Regime in Graphene Josephson Junctions

被引:0
|
作者
Anne W. Draelos
Ming Tso Wei
Andrew Seredinski
Chung Ting Ke
Yash Mehta
Russell Chamberlain
Kenji Watanabe
Takashi Taniguchi
Michihisa Yamamoto
Seigo Tarucha
Ivan V. Borzenets
François Amet
Gleb Finkelstein
机构
[1] Duke University,Department of Physics
[2] Appalachian State University,Department of Physics and Astronomy
[3] NIMS,Advanced Materials Laboratory
[4] University of Tokyo,Quantum Phase Electronics Center (QPEC)
[5] University of Tokyo,Department of Applied Physics
[6] RIKEN,Center for Emergent Matter Science (CEMS)
[7] City University of Hong Kong,Department of Physics
来源
Journal of Low Temperature Physics | 2018年 / 191卷
关键词
Graphene; Supercurrent; Josephson junction; Quantum Hall;
D O I
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中图分类号
学科分类号
摘要
In this study, we examine multiple encapsulated graphene Josephson junctions to determine which mechanisms may be responsible for the supercurrent observed in the quantum Hall (QH) regime. Rectangular junctions with various widths and lengths were studied to identify which parameters affect the occurrence of QH supercurrent. We also studied additional samples where the graphene region is extended beyond the contacts on one side, making that edge of the mesa significantly longer than the opposite edge. This is done in order to distinguish two potential mechanisms: (a) supercurrents independently flowing along both non-contacted edges of graphene mesa, and (b) opposite sides of the mesa being coupled by hybrid electron–hole modes flowing along the superconductor/graphene boundary. The supercurrent appears suppressed in extended junctions, suggesting the latter mechanism.
引用
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页码:288 / 300
页数:12
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