Phase transitions on the edge of the =5/2 Pfaffian and anti-Pfaffian quantum Hall state

Abstract

Starting from the edge reconstructed Pfaffian state and the anti-Pfaffian state for the filling fraction =5/2 fractional quantum Hall (FQH) state with the filled Landau levels included, we find that interactions between counterpropagating edge modes can induce phase transitions on the edge. In the new `Majorana-gapped' phases, a pair of counter propagating neutral Majorana modes becomes gapped. The quasiparticle tunneling exponent changes from g=1/4 to g=1/2 for the edge reconstructed Pfaffian state, and changes from g=1/2 to g=0.55-0.75 for the anti-Pfaffian state, in the new Majorana-gapped phases. The new phases are candidate states for the observed =5/2 state. Furthermore, Majorana-gapped phases provide examples that non-trivial quantum phase transitions can happen on the edge of a FQH state without any change in bulk topological order.