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Main Authors: Amano, Markus A. G., Eto, Minoru
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2404.03212
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author Amano, Markus A. G.
Eto, Minoru
author_facet Amano, Markus A. G.
Eto, Minoru
contents The AdS/CFT correspondence has significantly impacted the study of strongly coupled systems, providing insights into various condensed matter phenomena through its holographic duality. This paper introduces an alternative approach to the breaking of the global $U(1)$ symmetry in the bulk in two asymptotically AdS spacetimes: AdS plus hard wall and AdS Blackbrane. We explore a $(3+1)$-dimensional bulk $U(1)$ symmetry-breaking phase vacuum within a global $U(1)$ $ϕ^4$ field theory, without the gauge field present in prior models. We find the symmetry-breaking vacuum requires that the mass squared is proportional to the quartic coupling. We also investigate numerical solutions of topologically stable vortex strings extending into the bulk. We find evidence that the full UV expansion is dual to a point-like boundary excitation.
format Preprint
id arxiv_https___arxiv_org_abs_2404_03212
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Holographic Global Vortices with Novel Boundary Conditions
Amano, Markus A. G.
Eto, Minoru
High Energy Physics - Theory
The AdS/CFT correspondence has significantly impacted the study of strongly coupled systems, providing insights into various condensed matter phenomena through its holographic duality. This paper introduces an alternative approach to the breaking of the global $U(1)$ symmetry in the bulk in two asymptotically AdS spacetimes: AdS plus hard wall and AdS Blackbrane. We explore a $(3+1)$-dimensional bulk $U(1)$ symmetry-breaking phase vacuum within a global $U(1)$ $ϕ^4$ field theory, without the gauge field present in prior models. We find the symmetry-breaking vacuum requires that the mass squared is proportional to the quartic coupling. We also investigate numerical solutions of topologically stable vortex strings extending into the bulk. We find evidence that the full UV expansion is dual to a point-like boundary excitation.
title Holographic Global Vortices with Novel Boundary Conditions
topic High Energy Physics - Theory
url https://arxiv.org/abs/2404.03212