Composite subsystem symmetries and decoration of sub-dimensional excitations

IF 4.6 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Avi Vadali, Zongyuan Wang, Arpit Dua, Wilbur Shirley, Xie Chen
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引用次数: 0

Abstract

Flux binding is a mechanism that is well-understood for global symmetries. Given two systems, each with a global symmetry, gauging the composite symmetry instead of individual symmetries corresponds to the condensation of the composite of gauge charges belonging to individually gauged theories and the binding of the gauge fluxes. The condensed composite charge is created by a "short" string given by the new minimal coupling corresponding to the composite symmetry. This paper studies what happens when combined subsystem symmetries are gauged, especially when the component charges and fluxes have different sub-dimensional mobilities. We investigate $3+1$D systems with planar symmetries where, for example, the planar symmetry of a planon charge is combined with one of the planar symmetries of a fracton charge. We propose the principle of $\textit{Remote Detectability}$ to determine how the fluxes bind and potentially change their mobility. This understanding can then be used to design fracton models with sub-dimensional excitations that are decorated with excitations having nontrivial statistics or non-abelian fusion rules.
复合子系统对称性和亚维激波装饰
通量绑定是一种对全局对称性很好理解的机制。给定两个系统,每个系统都有一个全局对称性,对复合对称性而不是单独对称性进行测量,对应于属于单独测量理论的测量电荷的复合凝聚和测量通量的结合。凝聚的复合电荷是由与复合对称相对应的新的最小耦合给出的 "短 "弦产生的。本文研究了当组合子系统对称性被规整时会发生什么,特别是当组成电荷和通量具有不同的子维流动性时。我们研究了具有平面对称性的 3+1$D 系统,例如,一个平面电荷的平面对称性与一个分形电荷的平面对称性相结合。我们提出了"$textit{Remote Detectability}$"原理,以确定通量如何结合并可能改变其流动性。这种理解可以用来设计具有亚维激元的分形子模型,这些激元被具有非难统计或非阿贝尔融合规则的激元所装饰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
SciPost Physics
SciPost Physics Physics and Astronomy-Physics and Astronomy (all)
CiteScore
8.20
自引率
12.70%
发文量
315
审稿时长
10 weeks
期刊介绍: SciPost Physics publishes breakthrough research articles in the whole field of Physics, covering Experimental, Theoretical and Computational approaches. Specialties covered by this Journal: - Atomic, Molecular and Optical Physics - Experiment - Atomic, Molecular and Optical Physics - Theory - Biophysics - Condensed Matter Physics - Experiment - Condensed Matter Physics - Theory - Condensed Matter Physics - Computational - Fluid Dynamics - Gravitation, Cosmology and Astroparticle Physics - High-Energy Physics - Experiment - High-Energy Physics - Theory - High-Energy Physics - Phenomenology - Mathematical Physics - Nuclear Physics - Experiment - Nuclear Physics - Theory - Quantum Physics - Statistical and Soft Matter Physics.
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