Supercurrent Flow in Multiterminal Graphene Josephson Junctions.

dc.contributor.author

Draelos, Anne W

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Wei, Ming-Tso

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Seredinski, Andrew

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Li, Hengming

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Mehta, Yash

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Watanabe, Kenji

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Taniguchi, Takashi

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Borzenets, Ivan V

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Amet, François

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Finkelstein, Gleb

dc.date.accessioned

2019-03-01T15:25:53Z

dc.date.available

2019-03-01T15:25:53Z

dc.date.issued

2019-02

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2019-03-01T15:25:52Z

dc.description.abstract

We investigate the electronic properties of ballistic planar Josephson junctions with multiple superconducting terminals. Our devices consist of monolayer graphene encapsulated in boron nitride with molybdenum-rhenium contacts. Resistance measurements yield multiple resonant features, which are attributed to supercurrent flow among adjacent and nonadjacent Josephson junctions. In particular, we find that superconducting and dissipative currents coexist within the same region of graphene. We show that the presence of dissipative currents primarily results in electron heating and estimate the associated temperature rise. We find that the electrons in encapsulated graphene are efficiently cooled through the electron-phonon coupling.

dc.identifier.issn

1530-6984

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1530-6992

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https://hdl.handle.net/10161/18108

dc.language

eng

dc.publisher

American Chemical Society (ACS)

dc.relation.ispartof

Nano letters

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10.1021/acs.nanolett.8b04330

dc.subject

Graphene

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ballistic Josephson junctions

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electron−phonon coupling

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multiterminal current flow

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superconductivity

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Supercurrent Flow in Multiterminal Graphene Josephson Junctions.

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Journal article

duke.contributor.orcid

Draelos, Anne W|0000-0002-9046-3193

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Wei, Ming-Tso|0000-0002-2279-3721

duke.contributor.orcid

Finkelstein, Gleb|0000-0002-0883-0741

pubs.begin-page

1039

pubs.end-page

1043

pubs.issue

2

pubs.organisational-group

Staff

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Duke

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Trinity College of Arts & Sciences

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Physics

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Duke Institute for Brain Sciences

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University Institutes and Centers

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Institutes and Provost's Academic Units

pubs.publication-status

Published

pubs.volume

19

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