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Holography for 2D N = (0, 4) quantum field theory
Physical Review D, Volume: 103, Issue: 8
Swansea University Author: KONSTANTINOS FILIPPAS
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DOI (Published version): 10.1103/physrevd.103.086003
Abstract
We study the correspondence between AdS3 massive IIA supergravity vacua and two-dimensional N=(0,4) quiver quantum field theories. After categorizing all kinds of gravity solutions, we demystify the ones that seem to reflect anomalous gauge theories. In particular, we prove that there are bound stat...
Published in: | Physical Review D |
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ISSN: | 2470-0010 2470-0029 |
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American Physical Society (APS)
2021
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URI: | https://cronfa.swan.ac.uk/Record/cronfa60831 |
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2022-08-16T14:56:07.5609162 v2 60831 2022-08-16 Holography for 2D N = (0, 4) quantum field theory 1eb58ae35d9a72d95cf87b7c60576dc8 KONSTANTINOS FILIPPAS KONSTANTINOS FILIPPAS true false 2022-08-16 We study the correspondence between AdS3 massive IIA supergravity vacua and two-dimensional N=(0,4) quiver quantum field theories. After categorizing all kinds of gravity solutions, we demystify the ones that seem to reflect anomalous gauge theories. In particular, we prove that there are bound states of D-branes on the boundary of the space that provide the dual quiver theory with exactly the correct amount of flavor symmetry in order to cancel its gauge anomalies. Then we propose that the structure of the field theory should be complemented with additional bifundamental matter, which we argue may only be N=(4,4) hypermultiplets. Finally, we construct a Bogomol’nyi-Prasad-Sommerfield (BPS) string configuration and use the old and new supersymmetric matter to build its dual ultraviolet operator. During this holographic synthesis, we uncover some interesting features of the quiver superpotential and associate the proposed operator with the same classical mass of its dual BPS string. Journal Article Physical Review D 103 8 American Physical Society (APS) 2470-0010 2470-0029 15 4 2021 2021-04-15 10.1103/physrevd.103.086003 COLLEGE NANME COLLEGE CODE Swansea University This work is supported by both a STFC scholarship Project No. ST/S505778/1 and the Swansea University College of Science Studentship Reference No. 100936286. 2022-08-16T14:56:07.5609162 2022-08-16T14:49:23.8390354 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics KONSTANTINOS FILIPPAS 1 60831__24935__1bee870b29f544c4a7bba3c4eb81894c.pdf 60831.pdf 2022-08-16T14:54:09.2914485 Output 1627402 application/pdf Version of Record true Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. true eng https://creativecommons.org/licenses/by/4.0/ |
title |
Holography for 2D N = (0, 4) quantum field theory |
spellingShingle |
Holography for 2D N = (0, 4) quantum field theory KONSTANTINOS FILIPPAS |
title_short |
Holography for 2D N = (0, 4) quantum field theory |
title_full |
Holography for 2D N = (0, 4) quantum field theory |
title_fullStr |
Holography for 2D N = (0, 4) quantum field theory |
title_full_unstemmed |
Holography for 2D N = (0, 4) quantum field theory |
title_sort |
Holography for 2D N = (0, 4) quantum field theory |
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KONSTANTINOS FILIPPAS |
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KONSTANTINOS FILIPPAS |
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Physical Review D |
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10.1103/physrevd.103.086003 |
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American Physical Society (APS) |
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description |
We study the correspondence between AdS3 massive IIA supergravity vacua and two-dimensional N=(0,4) quiver quantum field theories. After categorizing all kinds of gravity solutions, we demystify the ones that seem to reflect anomalous gauge theories. In particular, we prove that there are bound states of D-branes on the boundary of the space that provide the dual quiver theory with exactly the correct amount of flavor symmetry in order to cancel its gauge anomalies. Then we propose that the structure of the field theory should be complemented with additional bifundamental matter, which we argue may only be N=(4,4) hypermultiplets. Finally, we construct a Bogomol’nyi-Prasad-Sommerfield (BPS) string configuration and use the old and new supersymmetric matter to build its dual ultraviolet operator. During this holographic synthesis, we uncover some interesting features of the quiver superpotential and associate the proposed operator with the same classical mass of its dual BPS string. |
published_date |
2021-04-15T05:20:59Z |
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