A non-Abelian fractional quantum Hall state at 3/7 filled Landau level

Abstract

We consider a non-Abelian candidate state at filling factor =3/7 state belonging to the parton family. We find that, in the second Landau level of GaAs (i.e. at filling factor =2+3/7), this state is energetically superior to the standard Jain composite-fermion state and also provides a very good representation of the ground state found in exact diagonalization studies of finite systems. This leads us to predict that if a fractional quantum Hall effect is observed at =3/7 in the second Landau level, it is likely to be described by this new non-Abelian state. We enumerate experimentally measurable properties that can verify the topological structure of this state.