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Generalized symmetries in singularity-free nonlinear \(\sigma\) models and their disordered phases
We study the nonlinear \(\sigma\)-model in \({(d+1)}\)-dimensional spacetime with connected target space \(K\) and show that, at energy scales below singular field configurations (such as vortices), it has an emergent non-invertible higher symmetry. The symmetry defects of the emergent symmetry are...
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| creator | Pace, Salvatore D Zhu, Chenchang Beaudry, Agnès Xiao-Gang, Wen |
| description | We study the nonlinear \(\sigma\)-model in \({(d+1)}\)-dimensional spacetime with connected target space \(K\) and show that, at energy scales below singular field configurations (such as vortices), it has an emergent non-invertible higher symmetry. The symmetry defects of the emergent symmetry are described by the \(d\)-representations of a discrete \(d\)-group \(\mathbb{G}^{(d)}\) (i.e. the emergent symmetry is the dual of the invertible \(d\)-group \(\mathbb{G}^{(d)}\) symmetry). The \(d\)-group \(\mathbb{G}^{(d)}\) is determined such that its classifying space \(B\mathbb{G}^{(d)}\) is given by the \(d\)-th Postnikov stage of \(K\). In \((2+1)\)D and for finite \(\mathbb{G}^{(2)}\), this symmetry is always holo-equivalent to an invertible \({0}\)-form (ordinary) symmetry with potential 't Hooft anomaly. The singularity-free disordered phase of the nonlinear \(\sigma\)-model spontaneously breaks this symmetry, and when \(\mathbb{G}^{(d)}\) is finite, it is described by the deconfined phase of \(\mathbb{G}^{(d)}\) higher gauge theory. We consider examples of such disordered phases. We focus on a singularity-free \(S^2\) nonlinear \(\sigma\)-model in \({(3+1)}\)D and show that it has an emergent non-invertible higher symmetry. As a result, its disordered phase is described by axion electrodynamics and has two gapless modes corresponding to a photon and a massless axion. Notably, this non-perturbative result is different from the results obtained using the \(S^N\) and \(\mathbb{C}P^{N-1}\) nonlinear \(\sigma\)-models in the large-\(N\) limit. |
| doi_str_mv | 10.48550/arxiv.2310.08554 |
| format | article |
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The symmetry defects of the emergent symmetry are described by the \(d\)-representations of a discrete \(d\)-group \(\mathbb{G}^{(d)}\) (i.e. the emergent symmetry is the dual of the invertible \(d\)-group \(\mathbb{G}^{(d)}\) symmetry). The \(d\)-group \(\mathbb{G}^{(d)}\) is determined such that its classifying space \(B\mathbb{G}^{(d)}\) is given by the \(d\)-th Postnikov stage of \(K\). In \((2+1)\)D and for finite \(\mathbb{G}^{(2)}\), this symmetry is always holo-equivalent to an invertible \({0}\)-form (ordinary) symmetry with potential 't Hooft anomaly. The singularity-free disordered phase of the nonlinear \(\sigma\)-model spontaneously breaks this symmetry, and when \(\mathbb{G}^{(d)}\) is finite, it is described by the deconfined phase of \(\mathbb{G}^{(d)}\) higher gauge theory. We consider examples of such disordered phases. We focus on a singularity-free \(S^2\) nonlinear \(\sigma\)-model in \({(3+1)}\)D and show that it has an emergent non-invertible higher symmetry. As a result, its disordered phase is described by axion electrodynamics and has two gapless modes corresponding to a photon and a massless axion. Notably, this non-perturbative result is different from the results obtained using the \(S^N\) and \(\mathbb{C}P^{N-1}\) nonlinear \(\sigma\)-models in the large-\(N\) limit.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.2310.08554</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Classification ; Electrodynamics ; Equivalence ; Gauge theory ; Group theory ; Singularities ; Symmetry</subject><ispartof>arXiv.org, 2024-11</ispartof><rights>2024. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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As a result, its disordered phase is described by axion electrodynamics and has two gapless modes corresponding to a photon and a massless axion. 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The symmetry defects of the emergent symmetry are described by the \(d\)-representations of a discrete \(d\)-group \(\mathbb{G}^{(d)}\) (i.e. the emergent symmetry is the dual of the invertible \(d\)-group \(\mathbb{G}^{(d)}\) symmetry). The \(d\)-group \(\mathbb{G}^{(d)}\) is determined such that its classifying space \(B\mathbb{G}^{(d)}\) is given by the \(d\)-th Postnikov stage of \(K\). In \((2+1)\)D and for finite \(\mathbb{G}^{(2)}\), this symmetry is always holo-equivalent to an invertible \({0}\)-form (ordinary) symmetry with potential 't Hooft anomaly. The singularity-free disordered phase of the nonlinear \(\sigma\)-model spontaneously breaks this symmetry, and when \(\mathbb{G}^{(d)}\) is finite, it is described by the deconfined phase of \(\mathbb{G}^{(d)}\) higher gauge theory. We consider examples of such disordered phases. We focus on a singularity-free \(S^2\) nonlinear \(\sigma\)-model in \({(3+1)}\)D and show that it has an emergent non-invertible higher symmetry. As a result, its disordered phase is described by axion electrodynamics and has two gapless modes corresponding to a photon and a massless axion. Notably, this non-perturbative result is different from the results obtained using the \(S^N\) and \(\mathbb{C}P^{N-1}\) nonlinear \(\sigma\)-models in the large-\(N\) limit.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.2310.08554</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Classification Electrodynamics Equivalence Gauge theory Group theory Singularities Symmetry |
| title | Generalized symmetries in singularity-free nonlinear \(\sigma\) models and their disordered phases |
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