Superconducting Triplet Rim Currents in a Spin-Textured Ferromagnetic Disk

Remko Fermin; Dyon Van Dinter; Michel Hubert; Bart Woltjes; Mikhail Silaev; Jan Aarts; Kaveh Lahabi

doi:10.1021/acs.nanolett.1c04051

Superconducting Triplet Rim Currents in a Spin-Textured Ferromagnetic Disk

Remko Fermin
, Dyon Van Dinter
, Michel Hubert
, Bart Woltjes
, Mikhail Silaev
, Jan Aarts
, Kaveh Lahabi^*

^*Tämän työn vastaava kirjoittaja

Fysiikka

Tutkimustuotos: Artikkeli › Tieteellinen › vertaisarvioitu

18 Sitaatiot (Scopus)

20 Lataukset (Pure)

Abstrakti

Since the discovery of the long-range superconducting proximity effect, the interaction between spin-Triplet Cooper pairs and magnetic structures such as domain walls and vortices has been the subject of intense theoretical discussions, while the relevant experiments remain scarce. We have developed nanostructured Josephson junctions with highly controllable spin texture, based on a disk-shaped Nb/Co bilayer. Here, the vortex magnetization of Co and the Cooper pairs of Nb conspire to induce long-range triplet (LRT) superconductivity in the ferromagnet. Surprisingly, the LRT correlations emerge in highly localized (sub-80 nm) channels at the rim of the ferromagnet, despite its trivial band structure. We show that these robust rim currents arise from the magnetization texture acting as an effective spin-orbit coupling, which results in spin accumulation at the bilayer-vacuum boundary. Lastly, we demonstrate that by altering the spin texture of a single ferromagnet, both 0 and πchannels can be realized in the same device.

Alkuperäiskieli	Englanti
Sivut	2209–2216
Sivumäärä	8
Julkaisu	Nano Letters
Vuosikerta	22
Numero	6
DOI - pysyväislinkit	https://doi.org/10.1021/acs.nanolett.1c04051
Tila	Julkaistu - 2022
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Rahoitus

This work was supported by the project “Spin texture Josephson junctions” (Project Number 680-91-128) and by the Frontiers of Nanoscience (NanoFront) program, which are both (partly) financed by the Dutch Research Council (NWO). It was also supported by EU Cost Action CA16218 (NANOCOHYBRI) and the Academy of Finland (Project 297439) and benefited from access to The Netherlands Centre for Electron Nanoscopy (NeCEN) at Leiden University.

Julkaisufoorumi-taso

Jufo-taso 3

!!ASJC Scopus subject areas

Bioengineering
Yleinen kemia
Yleinen materiaalitiede
Condensed Matter Physics
Mechanical Engineering

Pääsy asiakirjaan

10.1021/acs.nanolett.1c04051Lisenssi: CC BY

acs.nanolett.1c04051Final published version, 10,5 MBLisenssi: CC BY

https://urn.fi/URN:NBN:fi:tuni-202204193285Lisenssi: CC BY

Siteeraa tätä

@article{739a9353764d4685984f2147538e4069,

title = "Superconducting Triplet Rim Currents in a Spin-Textured Ferromagnetic Disk",

abstract = "Since the discovery of the long-range superconducting proximity effect, the interaction between spin-Triplet Cooper pairs and magnetic structures such as domain walls and vortices has been the subject of intense theoretical discussions, while the relevant experiments remain scarce. We have developed nanostructured Josephson junctions with highly controllable spin texture, based on a disk-shaped Nb/Co bilayer. Here, the vortex magnetization of Co and the Cooper pairs of Nb conspire to induce long-range triplet (LRT) superconductivity in the ferromagnet. Surprisingly, the LRT correlations emerge in highly localized (sub-80 nm) channels at the rim of the ferromagnet, despite its trivial band structure. We show that these robust rim currents arise from the magnetization texture acting as an effective spin-orbit coupling, which results in spin accumulation at the bilayer-vacuum boundary. Lastly, we demonstrate that by altering the spin texture of a single ferromagnet, both 0 and πchannels can be realized in the same device. ",

keywords = "Ferromagnetism, Magnetic texture, Superconductivity, Triplet Cooper pairs, Usadel theory",

author = "Remko Fermin and \{Van Dinter\}, Dyon and Michel Hubert and Bart Woltjes and Mikhail Silaev and Jan Aarts and Kaveh Lahabi",

note = "Funding Information: This work was supported by the project “Spin texture Josephson junctions” (Project Number 680-91-128) and by the Frontiers of Nanoscience (NanoFront) program, which are both (partly) financed by the Dutch Research Council (NWO). It was also supported by EU Cost Action CA16218 (NANOCOHYBRI) and the Academy of Finland (Project 297439) and benefited from access to The Netherlands Centre for Electron Nanoscopy (NeCEN) at Leiden University. Publisher Copyright: {\textcopyright} 2021 American Chemical Society. All rights reserved.",

year = "2022",

doi = "10.1021/acs.nanolett.1c04051",

language = "English",

volume = "22",

pages = "2209–2216",

journal = "Nano Letters",

issn = "1530-6984",

publisher = "American Chemical Society",

number = "6",

}

TY - JOUR

T1 - Superconducting Triplet Rim Currents in a Spin-Textured Ferromagnetic Disk

AU - Fermin, Remko

AU - Van Dinter, Dyon

AU - Hubert, Michel

AU - Woltjes, Bart

AU - Silaev, Mikhail

AU - Aarts, Jan

AU - Lahabi, Kaveh

N1 - Funding Information: This work was supported by the project “Spin texture Josephson junctions” (Project Number 680-91-128) and by the Frontiers of Nanoscience (NanoFront) program, which are both (partly) financed by the Dutch Research Council (NWO). It was also supported by EU Cost Action CA16218 (NANOCOHYBRI) and the Academy of Finland (Project 297439) and benefited from access to The Netherlands Centre for Electron Nanoscopy (NeCEN) at Leiden University. Publisher Copyright: © 2021 American Chemical Society. All rights reserved.

PY - 2022

Y1 - 2022

N2 - Since the discovery of the long-range superconducting proximity effect, the interaction between spin-Triplet Cooper pairs and magnetic structures such as domain walls and vortices has been the subject of intense theoretical discussions, while the relevant experiments remain scarce. We have developed nanostructured Josephson junctions with highly controllable spin texture, based on a disk-shaped Nb/Co bilayer. Here, the vortex magnetization of Co and the Cooper pairs of Nb conspire to induce long-range triplet (LRT) superconductivity in the ferromagnet. Surprisingly, the LRT correlations emerge in highly localized (sub-80 nm) channels at the rim of the ferromagnet, despite its trivial band structure. We show that these robust rim currents arise from the magnetization texture acting as an effective spin-orbit coupling, which results in spin accumulation at the bilayer-vacuum boundary. Lastly, we demonstrate that by altering the spin texture of a single ferromagnet, both 0 and πchannels can be realized in the same device.

AB - Since the discovery of the long-range superconducting proximity effect, the interaction between spin-Triplet Cooper pairs and magnetic structures such as domain walls and vortices has been the subject of intense theoretical discussions, while the relevant experiments remain scarce. We have developed nanostructured Josephson junctions with highly controllable spin texture, based on a disk-shaped Nb/Co bilayer. Here, the vortex magnetization of Co and the Cooper pairs of Nb conspire to induce long-range triplet (LRT) superconductivity in the ferromagnet. Surprisingly, the LRT correlations emerge in highly localized (sub-80 nm) channels at the rim of the ferromagnet, despite its trivial band structure. We show that these robust rim currents arise from the magnetization texture acting as an effective spin-orbit coupling, which results in spin accumulation at the bilayer-vacuum boundary. Lastly, we demonstrate that by altering the spin texture of a single ferromagnet, both 0 and πchannels can be realized in the same device.

KW - Ferromagnetism

KW - Magnetic texture

KW - Superconductivity

KW - Triplet Cooper pairs

KW - Usadel theory

U2 - 10.1021/acs.nanolett.1c04051

DO - 10.1021/acs.nanolett.1c04051

M3 - Article

AN - SCOPUS:85126306575

SN - 1530-6984

VL - 22

SP - 2209

EP - 2216

JO - Nano Letters

JF - Nano Letters

IS - 6

ER -

Superconducting Triplet Rim Currents in a Spin-Textured Ferromagnetic Disk

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Rahoitus

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!!ASJC Scopus subject areas

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