Research

December 12, 2019 at 11:45 am

Bischoff Authors ‘Spontaneous Symmetry Breaking from Anyon Condensation’

Dr. Marcel Bischoff in an outdoor setting

Dr. Marcel Bischoff

Dr. Marcel Bischoff co-authored “Spontaneous symmetry breaking from anyon condensation” in the Journal of High Energy Physics.

Bischoff is Assistant Professor of Mathematics at Ohio University.

Abstract: In a physical system undergoing a continuous quantum phase transition, spontaneous symmetry breaking occurs when certain symmetries of the Hamiltonian fail to be preserved in the ground state. In the traditional Landau theory, a symmetry group can break down to any subgroup. However, this no longer holds across a continuous phase transition driven by anyon condensation in symmetry enriched topological orders (SETOs). For a SETO described by a G-crossed braided extension C⊆C×G, we show that physical considerations require that a connected étale algebra A ∈ C admit a G-equivariant algebra structure for symmetry to be preserved under condensation of A. Given any categorical action G → EqBr(C) such that g(A) ≅ A for all g ∈ G, we show there is a short exact sequence whose splittings correspond to G-equivariant algebra structures. The non-splitting of this sequence forces spontaneous symmetry breaking under condensation of A, while inequivalent splittings of the sequence correspond to different SETOs resulting from the anyon-condensation transition. Furthermore, we show that if symmetry is preserved, there is a canonically associated SETO of ClocA, and gauging this symmetry commutes with anyon condensation.

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