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Nematically Templated Vortex Lattices in Superconducting FeSe

Nematically Templated Vortex Lattices in Superconducting FeSe
Nematically Templated Vortex Lattices in Superconducting FeSe

New pathways to controlling the morphology of superconducting vortex lattices─and their subsequent dynamics─are required to guide and scale vortex world-lines into a computing platform. We have found that the nematic twin boundaries align superconducting vortices in the adjacent terraces due to the incommensurate potential between vortices surrounding twin boundaries and those trapped within them. With the varying density and morphology of twin boundaries, the vortex lattice assumes several distinct structural phases, including square, regular, and irregular one-dimensional lattices. Through concomitant analysis of vortex lattice models, we have inferred the characteristic energetics of the twin boundary potential and furthermore predicted the existence of geometric size effects as a function of increasing confinement by the twin boundaries. These findings extend the ideas of directed control over vortex lattices to intrinsic topological defects and their self-organized networks, which have direct implications for the future design and control of strain-based topological quantum computing architectures.

FeSe, Langevin dynamics simulation, scanning tunneling microscope, templated vortex lattice, twin boundary, vortex
1530-6984
2822-2830
Song, Sang Yong
f6b72148-a935-42b1-b2b0-84534e455415
Hua, Chengyun
c5a2a326-a242-42c4-a017-e9762486793b
Bell, Luke
faab8946-3ebf-495a-87be-5153052a4e2d
Ko, Wonhee
63ff604f-4e09-407f-8af1-dc17d0ddfd8f
Fangohr, Hans
9b7cfab9-d5dc-45dc-947c-2eba5c81a160
Yan, Jiaqiang
606dfee4-5a6d-4930-9070-d140a2c22b69
Halasz, Gabor B
8efe4bd2-6ed8-4593-b30b-48ae67875433
Dumitrescu, Eugene
58c19ed6-5a5c-48c0-8d96-2ce5cb3b3b8f
Lawrie, Benjamin J
88255766-3429-4668-8f53-ee021a917c7e
Maksymovych, Petro
d3c37500-2ecb-4b94-8b6b-d427638adf7a
Song, Sang Yong
f6b72148-a935-42b1-b2b0-84534e455415
Hua, Chengyun
c5a2a326-a242-42c4-a017-e9762486793b
Bell, Luke
faab8946-3ebf-495a-87be-5153052a4e2d
Ko, Wonhee
63ff604f-4e09-407f-8af1-dc17d0ddfd8f
Fangohr, Hans
9b7cfab9-d5dc-45dc-947c-2eba5c81a160
Yan, Jiaqiang
606dfee4-5a6d-4930-9070-d140a2c22b69
Halasz, Gabor B
8efe4bd2-6ed8-4593-b30b-48ae67875433
Dumitrescu, Eugene
58c19ed6-5a5c-48c0-8d96-2ce5cb3b3b8f
Lawrie, Benjamin J
88255766-3429-4668-8f53-ee021a917c7e
Maksymovych, Petro
d3c37500-2ecb-4b94-8b6b-d427638adf7a

Song, Sang Yong, Hua, Chengyun, Bell, Luke, Ko, Wonhee, Fangohr, Hans, Yan, Jiaqiang, Halasz, Gabor B, Dumitrescu, Eugene, Lawrie, Benjamin J and Maksymovych, Petro (2023) Nematically Templated Vortex Lattices in Superconducting FeSe. Nano Letters, 23 (7), 2822-2830. (doi:10.1021/acs.nanolett.3c00125).

Record type: Article

Abstract

New pathways to controlling the morphology of superconducting vortex lattices─and their subsequent dynamics─are required to guide and scale vortex world-lines into a computing platform. We have found that the nematic twin boundaries align superconducting vortices in the adjacent terraces due to the incommensurate potential between vortices surrounding twin boundaries and those trapped within them. With the varying density and morphology of twin boundaries, the vortex lattice assumes several distinct structural phases, including square, regular, and irregular one-dimensional lattices. Through concomitant analysis of vortex lattice models, we have inferred the characteristic energetics of the twin boundary potential and furthermore predicted the existence of geometric size effects as a function of increasing confinement by the twin boundaries. These findings extend the ideas of directed control over vortex lattices to intrinsic topological defects and their self-organized networks, which have direct implications for the future design and control of strain-based topological quantum computing architectures.

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More information

e-pub ahead of print date: 20 March 2023
Published date: 12 April 2023
Keywords: FeSe, Langevin dynamics simulation, scanning tunneling microscope, templated vortex lattice, twin boundary, vortex

Identifiers

Local EPrints ID: 480367
URI: http://eprints.soton.ac.uk/id/eprint/480367
DOI: doi:10.1021/acs.nanolett.3c00125
ISSN: 1530-6984
PURE UUID: 96b71c6f-92c8-4d12-8cf8-79d971e7a884
ORCID for Hans Fangohr: ORCID iD orcid.org/0000-0001-5494-7193

Catalogue record

Date deposited: 01 Aug 2023 17:52
Last modified: 17 Mar 2024 02:49

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Contributors

Author: Sang Yong Song
Author: Chengyun Hua
Author: Luke Bell
Author: Wonhee Ko
Author: Hans Fangohr ORCID iD
Author: Jiaqiang Yan
Author: Gabor B Halasz
Author: Eugene Dumitrescu
Author: Benjamin J Lawrie
Author: Petro Maksymovych

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