Related papers: Categorical symmetry and non-invertible anomaly in symmetry-breaking and topological phase transitions

Categorical symmetry and non-invertible anomaly in symmetry-breaking and topological phase transitions

URL: http://arxiv.org/abs/1912.13492v4
Date: Thu, 17 Sep 2020 22:09:00 GMT
Title: Categorical symmetry and non-invertible anomaly in symmetry-breaking and topological phase transitions
Authors: Wenjie Ji, Xiao-Gang Wen
Abstract summary: For a zero-temperature Landau symmetry breaking transition in $n$-dimensional space that completely breaks a finite symmetry $G$, the critical point at the transition has the symmetry $G$. We show that the critical point also has a dual symmetry - a $(n-1)-symmetry described by a higher group when $G is Abelian or an algebraic $(n-1)-symmetry beyond higher group when $G is non-Abelian.
Score: 0.974672460306765
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: For a zero-temperature Landau symmetry breaking transition in $n$-dimensional space that completely breaks a finite symmetry $G$, the critical point at the transition has the symmetry $G$. In this paper, we show that the critical point also has a dual symmetry - a $(n-1)$-symmetry described by a higher group when $G$ is Abelian or an algebraic $(n-1)$-symmetry beyond higher group when $G$ is non-Abelian. In fact, any $G$-symmetric system can be viewed as a boundary of $G$-gauge theory in one higher dimension. The conservation of gauge charge and gauge flux in the bulk $G$-gauge theory gives rise to the symmetry and the dual symmetry respectively. So any $G$-symmetric system actually has a larger symmetry called categorical symmetry, which is a combination of the symmetry and the dual symmetry. However, part (and only part) of the categorical symmetry must be spontaneously broken in any gapped phase of the system, but there exists a gapless state where the categorical symmetry is not spontaneously broken. Such a gapless state corresponds to the usual critical point of Landau symmetry breaking transition. The above results remain valid even if we expand the notion of symmetry to include higher symmetries and algebraic higher symmetries. Thus our result also applies to critical points for transitions between topological phases of matter. In particular, we show that there can be several critical points for the transition from the 3+1D $Z_2$ gauge theory to a trivial phase. The critical point from Higgs condensation has a categorical symmetry formed by a $Z_2$ 0-symmetry and its dual - a $Z_2$ 2-symmetry, while the critical point of the confinement transition has a categorical symmetry formed by a $Z_2$ 1-symmetry and its dual - another $Z_2$ 1-symmetry.

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