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SCFT deformations via uplifted solitons

Dimitris Chatzis, Ali Fatemiabhari, Carlos Nunez Orcid Logo, Peter Weck

Nuclear Physics B, Volume: 1006, Start page: 116659

Swansea University Authors: Dimitris Chatzis, Ali Fatemiabhari, Carlos Nunez Orcid Logo, Peter Weck

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DOI (Published version): 10.1016/j.nuclphysb.2024.116659

Abstract

A holographic method for implementing a particular supersymmetry-preserving deformation to 4d SCFTs is presented. At the heart of the procedure is a soliton solution of minimal gauged supergravity. Embedding this solution into ten- and eleven-dimensional string theory backgrounds of the form AdS, we...

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Published in: Nuclear Physics B
ISSN: 0550-3213
Published: Elsevier BV 2024
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URI: https://cronfa.swan.ac.uk/Record/cronfa67507
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spelling v2 67507 2024-09-01 SCFT deformations via uplifted solitons 71182479e907484a002ac4431d40a041 Dimitris Chatzis Dimitris Chatzis true false 1fff8a27c5649675cda6e190dc0c74c3 Ali Fatemiabhari Ali Fatemiabhari true false c0d6540c37ad4b0a5934d3978048fb2a 0000-0002-1958-9551 Carlos Nunez Carlos Nunez true false 131426ce0a988db69a4f19a27eb1aed0 Peter Weck Peter Weck true false 2024-09-01 BGPS A holographic method for implementing a particular supersymmetry-preserving deformation to 4d SCFTs is presented. At the heart of the procedure is a soliton solution of minimal gauged supergravity. Embedding this solution into ten- and eleven-dimensional string theory backgrounds of the form AdS, we systematically construct a range of new solutions. Each holographically realizes a twisted compactification of the SCFT4 dual to the original background. In the IR, the resulting SQFTs flow to gapped three-dimensional systems. Using a variety of holographic observables, we give evidence for this interpretation and for confinement in the deformed SQFTs. Our method applies to any holographic solutions admitting a consistent truncation to minimal gauged supergravity, and can likely be generalized to solutions with other AdSd factors. Journal Article Nuclear Physics B 1006 116659 Elsevier BV 0550-3213 1 9 2024 2024-09-01 10.1016/j.nuclphysb.2024.116659 COLLEGE NANME Biosciences Geography and Physics School COLLEGE CODE BGPS Swansea University Other Funded by SCOAP. For discussions, comments on the manuscript, we wish to thank: Federico Castellani, S. Prem Kumar, Ricardo Stuardo. We are supported by the grants ST/X000648/1 and ST/T000813/1. D.C. has been supported by the STFC Consolidated Grant ST/Y509644/1. A.F. has been supported by the STFC Consolidated Grant ST/V507143/1 and the EPSRC Standard Research Studentship (DTP) EP/T517987/1. 2024-10-30T14:57:56.9999524 2024-09-01T13:45:11.2755869 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics Dimitris Chatzis 1 Ali Fatemiabhari 2 Carlos Nunez 0000-0002-1958-9551 3 Peter Weck 4 67507__32800__ee9cc74887ce4d05ae4eb7c6beb27939.pdf 67507.VoR.pdf 2024-10-30T14:55:16.3559814 Output 1147497 application/pdf Version of Record true Crown Copyright © 2024. Funded by SCOAP³. This is an open access article under the CC BY license. true eng http://creativecommons.org/licenses/by/4.0/).
title SCFT deformations via uplifted solitons
spellingShingle SCFT deformations via uplifted solitons
Dimitris Chatzis
Ali Fatemiabhari
Carlos Nunez
Peter Weck
title_short SCFT deformations via uplifted solitons
title_full SCFT deformations via uplifted solitons
title_fullStr SCFT deformations via uplifted solitons
title_full_unstemmed SCFT deformations via uplifted solitons
title_sort SCFT deformations via uplifted solitons
author_id_str_mv 71182479e907484a002ac4431d40a041
1fff8a27c5649675cda6e190dc0c74c3
c0d6540c37ad4b0a5934d3978048fb2a
131426ce0a988db69a4f19a27eb1aed0
author_id_fullname_str_mv 71182479e907484a002ac4431d40a041_***_Dimitris Chatzis
1fff8a27c5649675cda6e190dc0c74c3_***_Ali Fatemiabhari
c0d6540c37ad4b0a5934d3978048fb2a_***_Carlos Nunez
131426ce0a988db69a4f19a27eb1aed0_***_Peter Weck
author Dimitris Chatzis
Ali Fatemiabhari
Carlos Nunez
Peter Weck
author2 Dimitris Chatzis
Ali Fatemiabhari
Carlos Nunez
Peter Weck
format Journal article
container_title Nuclear Physics B
container_volume 1006
container_start_page 116659
publishDate 2024
institution Swansea University
issn 0550-3213
doi_str_mv 10.1016/j.nuclphysb.2024.116659
publisher Elsevier BV
college_str Faculty of Science and Engineering
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hierarchy_top_id facultyofscienceandengineering
hierarchy_top_title Faculty of Science and Engineering
hierarchy_parent_id facultyofscienceandengineering
hierarchy_parent_title Faculty of Science and Engineering
department_str School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics
document_store_str 1
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description A holographic method for implementing a particular supersymmetry-preserving deformation to 4d SCFTs is presented. At the heart of the procedure is a soliton solution of minimal gauged supergravity. Embedding this solution into ten- and eleven-dimensional string theory backgrounds of the form AdS, we systematically construct a range of new solutions. Each holographically realizes a twisted compactification of the SCFT4 dual to the original background. In the IR, the resulting SQFTs flow to gapped three-dimensional systems. Using a variety of holographic observables, we give evidence for this interpretation and for confinement in the deformed SQFTs. Our method applies to any holographic solutions admitting a consistent truncation to minimal gauged supergravity, and can likely be generalized to solutions with other AdSd factors.
published_date 2024-09-01T14:57:55Z
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