Nonlocal thermoelectricity in a hybrid superconducting graphene device

D. S. Golubev; N. S. Kirsanov; Z. B. Tan; A. Laitinen; A. Galda; V. M. Vinokur; M. Haque; A. Savin; G. B. Lesovik; P. J. Hakonen

doi:10.1063/5.0054927

Nonlocal thermoelectricity in a hybrid superconducting graphene device

D. S. Golubev, N. S. Kirsanov^*, Z. B. Tan, A. Laitinen, A. Galda, V. M. Vinokur, M. Haque, A. Savin, G. B. Lesovik, P. J. Hakonen

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

Abstract

The Seebeck effect producing voltage difference from temperature gradient has a wide spectrum of applications. Recent theoretical studies show that the Cooper pair splitting and the elastic co-tunneling can give rise to the nonlocal Seebeck effect in hybrid normal metal-superconductor-normal metal systems. Here we propose a coherent transport description of this nonlocal effect and validate its experimental observation in a graphene-based Cooper pair splitter.

Original language	English
Title of host publication	MIPT (PHYSTECH) - QUANT 2020
Editors	Gordey Lesovik, Valeril Vinokur, Mikhail Perelshtein
Publisher	American Institute of Physics
Number of pages	6
ISBN (Electronic)	9780735441026
DOIs	https://doi.org/10.1063/5.0054927
Publication status	Published - 16 Jun 2021
MoE publication type	A4 Article in a conference publication
Event	International Conference on Quantum Technologies - Virtual, Online, Moscow, Russian Federation Duration: 7 Sep 2020 → 11 Sep 2020

Publication series

Name	AIP Conference Proceedings
Volume	2362
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	International Conference on Quantum Technologies
Country	Russian Federation
City	Moscow
Period	07/09/2020 → 11/09/2020

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10.1063/5.0054927

Cite this

Golubev, D. S., Kirsanov, N. S., Tan, Z. B., Laitinen, A., Galda, A., Vinokur, V. M., Haque, M., Savin, A., Lesovik, G. B., & Hakonen, P. J. (2021). Nonlocal thermoelectricity in a hybrid superconducting graphene device. In G. Lesovik, V. Vinokur, & M. Perelshtein (Eds.), MIPT (PHYSTECH) - QUANT 2020 [030003] (AIP Conference Proceedings; Vol. 2362). American Institute of Physics. https://doi.org/10.1063/5.0054927

Golubev, D. S. ; Kirsanov, N. S. ; Tan, Z. B. ; Laitinen, A. ; Galda, A. ; Vinokur, V. M. ; Haque, M. ; Savin, A. ; Lesovik, G. B. ; Hakonen, P. J. / Nonlocal thermoelectricity in a hybrid superconducting graphene device. MIPT (PHYSTECH) - QUANT 2020. editor / Gordey Lesovik ; Valeril Vinokur ; Mikhail Perelshtein. American Institute of Physics, 2021. (AIP Conference Proceedings).

@inproceedings{a933269644484db6b2cae521b8526c77,

title = "Nonlocal thermoelectricity in a hybrid superconducting graphene device",

abstract = "The Seebeck effect producing voltage difference from temperature gradient has a wide spectrum of applications. Recent theoretical studies show that the Cooper pair splitting and the elastic co-tunneling can give rise to the nonlocal Seebeck effect in hybrid normal metal-superconductor-normal metal systems. Here we propose a coherent transport description of this nonlocal effect and validate its experimental observation in a graphene-based Cooper pair splitter. ",

author = "Golubev, {D. S.} and Kirsanov, {N. S.} and Tan, {Z. B.} and A. Laitinen and A. Galda and Vinokur, {V. M.} and M. Haque and A. Savin and Lesovik, {G. B.} and Hakonen, {P. J.}",

note = "| openaire: EC/H2020/670743/EU//QuDeT | openaire: EC/H2020/722923/EU//OMT ; International Conference on Quantum Technologies ; Conference date: 07-09-2020 Through 11-09-2020",

year = "2021",

month = jun,

day = "16",

doi = "10.1063/5.0054927",

language = "English",

series = "AIP Conference Proceedings",

publisher = "American Institute of Physics",

editor = "Gordey Lesovik and Valeril Vinokur and Mikhail Perelshtein",

booktitle = "MIPT (PHYSTECH) - QUANT 2020",

address = "United States",

}

Golubev, DS , Kirsanov, NS, Tan, ZB, Laitinen, A, Galda, A, Vinokur, VM, Haque, M , Savin, A, Lesovik, GB & Hakonen, PJ 2021, Nonlocal thermoelectricity in a hybrid superconducting graphene device. in G Lesovik, V Vinokur & M Perelshtein (eds), MIPT (PHYSTECH) - QUANT 2020., 030003, AIP Conference Proceedings, vol. 2362, American Institute of Physics, International Conference on Quantum Technologies, Moscow, Russian Federation, 07/09/2020. https://doi.org/10.1063/5.0054927

Nonlocal thermoelectricity in a hybrid superconducting graphene device. / Golubev, D. S.; Kirsanov, N. S.; Tan, Z. B.; Laitinen, A.; Galda, A.; Vinokur, V. M.; Haque, M.; Savin, A.; Lesovik, G. B.; Hakonen, P. J.

MIPT (PHYSTECH) - QUANT 2020. ed. / Gordey Lesovik; Valeril Vinokur; Mikhail Perelshtein. American Institute of Physics, 2021. 030003 (AIP Conference Proceedings; Vol. 2362).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

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AU - Vinokur, V. M.

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AU - Hakonen, P. J.

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AB - The Seebeck effect producing voltage difference from temperature gradient has a wide spectrum of applications. Recent theoretical studies show that the Cooper pair splitting and the elastic co-tunneling can give rise to the nonlocal Seebeck effect in hybrid normal metal-superconductor-normal metal systems. Here we propose a coherent transport description of this nonlocal effect and validate its experimental observation in a graphene-based Cooper pair splitter.

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ER -

Nonlocal thermoelectricity in a hybrid superconducting graphene device

Abstract

Publication series

Conference

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Embargoed Document

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EMP: European Microkelvin Platform

QuDeT: Quantum devices in topological matter: carbon nanotubes, graphene, and novel superfluids

Quantum Entanglement in Graphene

Cite this

Nonlocal thermoelectricity in a hybrid superconducting graphene device

Abstract

Publication series

Conference

Access to Document

Other files and links

Embargoed Document

Fingerprint

Projects

EMP: European Microkelvin Platform

QuDeT: Quantum devices in topological matter: carbon nanotubes, graphene, and novel superfluids

Quantum Entanglement in Graphene

Cite this