Topological phase transition to Abelian anyon phases due to off-diagonal exchange interaction in the Kitaev spin liquid state

Abstract

We investigate how the Kitaev spin liquid state described by Majorana fermions coupled with Z2 gauge fields is affected by non-Kitaev interactions which exist in real candidate materials of the Kitaev magnet. It is found that the off-diagonal exchange interaction referred to as the ' term dramatically changes the Majorana band structure in the case of the antiferromagnetic Kitaev interaction, and gives rise to a topological phase transition from a non-Abelian topological phase with the Chern number equal to 1 to an Abelian phase with the Chern number equal to 2, in which the Z2 vortices behave as Abelian anyons. On the other hand, other non-Kitaev interactions such as the Heisenberg interaction and the term, only affect the bandwidth of the Majorana band as long as the spin liquid state is not destabilized.