Multiterminal Inverse AC Josephson Effect.

dc.contributor.author

Arnault, Ethan G

dc.contributor.author

Larson, Trevyn FQ

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Seredinski, Andrew

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Zhao, Lingfei

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Idris, Sara

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McConnell, Aeron

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Watanabe, Kenji

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Taniguchi, Takashi

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Borzenets, Ivan

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Amet, François

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Finkelstein, Gleb

dc.date.accessioned

2021-12-21T22:49:16Z

dc.date.available

2021-12-21T22:49:16Z

dc.date.issued

2021-11-15

dc.date.updated

2021-12-21T22:49:04Z

dc.description.abstract

When a Josephson junction is exposed to microwave radiation, it undergoes the inverse AC Josephson effect─the phase of the junction locks to the drive frequency. As a result, the I-V curves of the junction acquire "Shapiro steps" of quantized voltage. If the junction has three or more superconducting contacts, coupling between different pairs of terminals must be taken into account and the state of the junction evolves in a phase space of higher dimensionality. Here, we study the multiterminal inverse AC Josephson effect in a graphene sample with three superconducting terminals. We observe robust fractional Shapiro steps and correlated switching events, which can only be explained by considering the device as a completely connected Josephson network. We successfully simulate the observed behaviors using a modified two-dimensional RCSJ model. Our results suggest that multiterminal Josephson junctions are a playground to study highly connected nonlinear networks with novel topologies.

dc.identifier.issn

1530-6984

dc.identifier.issn

1530-6992

dc.identifier.uri

https://hdl.handle.net/10161/24119

dc.language

eng

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American Chemical Society (ACS)

dc.relation.ispartof

Nano letters

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10.1021/acs.nanolett.1c03474

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AC Josephson Effect

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Driven-Dissipative Systems

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Shapiro Steps

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Superconductivity

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Topological Materials

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Multiterminal Inverse AC Josephson Effect.

dc.type

Journal article

duke.contributor.orcid

Finkelstein, Gleb|0000-0002-0883-0741

pubs.begin-page

9668

pubs.end-page

9674

pubs.issue

22

pubs.organisational-group

Trinity College of Arts & Sciences

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Physics

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Duke Institute for Brain Sciences

pubs.organisational-group

Duke

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University Institutes and Centers

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Institutes and Provost's Academic Units

pubs.publication-status

Published

pubs.volume

21

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