Loss and Decoherence at the Quantum Hall-Superconductor Interface.

dc.contributor.author

Zhao, Lingfei

dc.contributor.author

Iftikhar, Zubair

dc.contributor.author

Larson, Trevyn FQ

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Arnault, Ethan G

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Watanabe, Kenji

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Taniguchi, Takashi

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Amet, François

dc.contributor.author

Finkelstein, Gleb

dc.date.accessioned

2023-12-31T22:53:25Z

dc.date.available

2023-12-31T22:53:25Z

dc.date.issued

2023-10

dc.description.abstract

We perform a systematic study of Andreev conversion at the interface between a superconductor and graphene in the quantum Hall (QH) regime. We find that the probability of Andreev conversion from electrons to holes follows an unexpected but clear trend: the dependencies on temperature and magnetic field are nearly decoupled. We discuss these trends and the role of the superconducting vortices, whose normal cores could both absorb and dephase the individual electrons in a QH edge. Our Letter may pave the road to engineering a future generation of hybrid devices for exploiting superconductivity proximity in chiral channels.

dc.identifier.issn

0031-9007

dc.identifier.issn

1079-7114

dc.identifier.uri

https://hdl.handle.net/10161/29567

dc.language

eng

dc.publisher

American Physical Society (APS)

dc.relation.ispartof

Physical review letters

dc.relation.isversionof

10.1103/physrevlett.131.176604

dc.rights.uri

https://creativecommons.org/licenses/by-nc/4.0

dc.title

Loss and Decoherence at the Quantum Hall-Superconductor Interface.

dc.type

Journal article

duke.contributor.orcid

Finkelstein, Gleb|0000-0002-0883-0741

pubs.begin-page

176604

pubs.issue

17

pubs.organisational-group

Duke

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Pratt School of Engineering

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Trinity College of Arts & Sciences

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Electrical and Computer Engineering

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Physics

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Institutes and Provost's Academic Units

pubs.organisational-group

University Institutes and Centers

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Duke Institute for Brain Sciences

pubs.publication-status

Published

pubs.volume

131

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