Ballistic Graphene Josephson Junctions from the Short to the Long Junction Regimes.

Borzenets, IV; Amet, F; Ke, CT; Draelos, AW; Wei, MT; Seredinski, A; Watanabe, K; Taniguchi, T; Bomze, Y; Yamamoto, M; Tarucha, S; Finkelstein, G

doi:10.1103/physrevlett.117.237002

Abstract

We investigate the critical current I_{C} of ballistic Josephson junctions made of encapsulated graphene-boron-nitride heterostructures. We observe a crossover from the short to the long junction regimes as the length of the device increases. In long ballistic junctions, I_{C} is found to scale as ∝exp(-k_{B}T/δE). The extracted energies δE are independent of the carrier density and proportional to the level spacing of the ballistic cavity. As T→0 the critical current of a long (or short) junction saturates at a level determined by the product of δE (or Δ) and the number of the junction's transversal modes.

Type

Journal article

Subject

Science & Technology
Physical Sciences
Physics, Multidisciplinary
Physics
SUPERCONDUCTORS
SUPERCURRENT
CONTACT

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https://hdl.handle.net/10161/17541

Published Version (Please cite this version)

10.1103/physrevlett.117.237002

Publication Info

Borzenets, IV; Amet, F; Ke, CT; Draelos, AW; Wei, MT; Seredinski, A; ... Finkelstein, G (2016). Ballistic Graphene Josephson Junctions from the Short to the Long Junction Regimes. Physical review letters, 117(23). pp. 237002. 10.1103/physrevlett.117.237002. Retrieved from https://hdl.handle.net/10161/17541.

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Scholars@Duke

Anne Draelos

Postdoctoral Associate

Gleb Finkelstein

Professor of Physics

Gleb Finkelstein is an experimentalist interested in physics of quantum nanostructures, such as Josephson junctions and quantum dots made of carbon nanotubes, graphene, and topological materials. These objects reveal a variety of interesting electronic properties that may form a basis for future quantum devices.

Andrew Seredinski

Research Assistant, Ph D Student

Ming-Tso Wei

Student

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