Open Access

Physical Review B, volume 106, issue 14, publication number 144411

Magnonic spin Joule heating and rectification effects

Amundsen Morten ¹

Bobkova Irina V ^{2, 3, 4}

Kamra Akashdeep ⁵

Hide authors affiliations Show authors affiliations: 5 affiliations

Nordita, KTH Royal Institute of Technology and Stockholm University, Hannes Alfvéns väg 12, SE-106 91 Stockholm, Sweden

KTH Royal Institute of Technology

Stockholm University

Institute of Solid State Physics, Chernogolovka, 142432 Moscow, Russia |

Moscow Institute of Physics and Technology, Dolgoprudny, 141700 Moscow, Russia |

⁴

National Research University Higher School of Economics, 101000 Moscow, Russia |

⁵

Condensed Matter Physics Center (IFIMAC) and Departamento de Física Teórica de la Materia Condensada, Universidad Autónoma de Madrid, E-28049 Madrid, Spain |

Publication type: Journal Article

Publication date: 2022-10-10

American Physical Society (APS)

Journal: Physical Review B

Quartile SCImago

Quartile WOS

Impact factor: 3.7

ISSN: 24699950, 24699969, 10980121, 1550235X

DOI: 10.1103/PhysRevB.106.144411

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Abstract

Nonlinear devices, such as transistors, enable contemporary computing technologies. We theoretically investigate nonlinear effects, bearing a high fundamental scientific and technical relevance, in magnonics with emphasis on superconductor-ferromagnet hybrids. Accounting for a finite magnon chemical potential, we theoretically demonstrate magnonic spin Joule heating, the spin analog of conventional electronic Joule heating. Besides suggesting a key contribution to magnonic heat transport in a broad range of devices, it provides insights into the thermal physics of nonconserved bosonic excitations. Considering a spin-split superconductor self-consistently, we demonstrate its interface with a ferromagnetic insulator to harbor large tunability of spin and thermal conductances. We further demonstrate hysteretic rectification I-V characteristics in this hybrid, where the hysteresis results from the superconducting state bistability.

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Citations by journals

	1 2
Physical Review B	Physical Review B, 2, 50% Physical Review B 2 publications, 50%
Communications Materials	Communications Materials, 1, 25% Communications Materials 1 publication, 25%
Journal of Magnetism and Magnetic Materials	Journal of Magnetism and Magnetic Materials, 1, 25% Journal of Magnetism and Magnetic Materials 1 publication, 25%
	1 2

Citations by publishers

	1 2
American Physical Society (APS)	American Physical Society (APS), 2, 50% American Physical Society (APS) 2 publications, 50%
Springer Nature	Springer Nature, 1, 25% Springer Nature 1 publication, 25%
Elsevier	Elsevier, 1, 25% Elsevier 1 publication, 25%
	1 2

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Amundsen M. et al. Magnonic spin Joule heating and rectification effects // Physical Review B. 2022. Vol. 106. No. 14. 144411

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Amundsen M., Bobkova I. V., Kamra A. Magnonic spin Joule heating and rectification effects // Physical Review B. 2022. Vol. 106. No. 14. 144411

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RIS Copy

TY - JOUR

DO - 10.1103/PhysRevB.106.144411

UR - https://doi.org/10.1103%2FPhysRevB.106.144411

TI - Magnonic spin Joule heating and rectification effects

T2 - Physical Review B

AU - Amundsen, Morten

AU - Bobkova, Irina V

AU - Kamra, Akashdeep

PY - 2022

DA - 2022/10/10 00:00:00

PB - American Physical Society (APS)

IS - 14

VL - 106

SN - 2469-9950

SN - 2469-9969

SN - 1098-0121

SN - 1550-235X

ER -

BibTex

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BibTex Copy

@article{2022_Amundsen,

author = {Morten Amundsen and Irina V Bobkova and Akashdeep Kamra},

title = {Magnonic spin Joule heating and rectification effects},

journal = {Physical Review B},

year = {2022},

volume = {106},

publisher = {American Physical Society (APS)},

month = {oct},

url = {https://doi.org/10.1103%2FPhysRevB.106.144411},

number = {14},

doi = {10.1103/PhysRevB.106.144411}

}

Found error?

Publisher

American Physical Society (APS)

Journal

Physical Review B

Quartile SCImago

Quartile WOS

Impact factor

3.7

ISSN

24699950 (Print)
24699969 (Electronic)
10980121 (Print)
1550235X (Electronic)

Labs

Laboratory of Spin Phenomena in superconducting nanostructures and Devices

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