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Hauptverfasser: Kim, Gitae, Choi, Yeong Seok, Oh, Jae-Hyuk
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2504.13635
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author Kim, Gitae
Choi, Yeong Seok
Oh, Jae-Hyuk
author_facet Kim, Gitae
Choi, Yeong Seok
Oh, Jae-Hyuk
contents We explore anisotropic holographic superfluidity and find analytic solutions near critical point where superfluid/normalfluid phase transition appears in a holographic dual fluid system. In arXiv:hep-th/1109.4592, the authors obtained such an analytic solution in 5-dimensional Einstein-SU(2)Yang-Mills system, and it is asymptotically AdS$_5$. What is more in this note is that we get analytic solutions near the critical point in 3- and 4- dimensional Einstein-Scalar-U(1)$\times$SU(2)Yang-Mills systems, which become asymptotically hyperscaling violation geometry. We also get leading order back reactions to the background geometry, which clearly show spatial anisotropy of the bulk geometry. To explore the properties of the spacetime, we compute holographic entanglement entropy and confirm that the superfluid/normalfluid phase transition must occur at the critical point.
format Preprint
id arxiv_https___arxiv_org_abs_2504_13635
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Analytic approaches to anisotropic holographic superfluids in asymptotically hyperscaling violation geometry
Kim, Gitae
Choi, Yeong Seok
Oh, Jae-Hyuk
High Energy Physics - Theory
We explore anisotropic holographic superfluidity and find analytic solutions near critical point where superfluid/normalfluid phase transition appears in a holographic dual fluid system. In arXiv:hep-th/1109.4592, the authors obtained such an analytic solution in 5-dimensional Einstein-SU(2)Yang-Mills system, and it is asymptotically AdS$_5$. What is more in this note is that we get analytic solutions near the critical point in 3- and 4- dimensional Einstein-Scalar-U(1)$\times$SU(2)Yang-Mills systems, which become asymptotically hyperscaling violation geometry. We also get leading order back reactions to the background geometry, which clearly show spatial anisotropy of the bulk geometry. To explore the properties of the spacetime, we compute holographic entanglement entropy and confirm that the superfluid/normalfluid phase transition must occur at the critical point.
title Analytic approaches to anisotropic holographic superfluids in asymptotically hyperscaling violation geometry
topic High Energy Physics - Theory
url https://arxiv.org/abs/2504.13635