Anomalies in mirror symmetry enriched topological orders

Abstract

Two-dimensional mirror symmetry enriched topological (SET) orders can be studied using the folding approach: it can be folded along the mirror axis and turned into a bilayer system on which the mirror symmetry acts as a Z2 layer-exchange symmetry. How mirror symmetry enriches the topological order is then encoded at the mirror axis, which is a gapped boundary of the folded bilayer system. Based on anyon-condensation theory, we classify possible Z2-symmetric gapped boundaries of the folded system. In particular, we derive an H2 obstruction function, which corresponds to an H3 obstruction for topological orders enriched by the time-reversal symmetry instead of mirror symmetry. We demonstrate that states with a nontrivial H2 obstruction function can be constructed on the surface of a three-dimensional mirror SET order.