Fractional quantum Hall effect of partons and the nature of the 8/17 state in the zeroth Landau level of bilayer graphene

We consider the fractional quantum Hall effect (FQHE) at the filling factor 8/17, where signatures of incompressibility have been observed in the zeroth Landau level of bilayer graphene. We propose an Abelian state described by the `` (8/3) 21^3'' parton wave function, where a parton itself forms an FQHE state. This state is topologically distinct from the 8/17 Levin-Halperin state, a daughter state of the Moore-Read state. We carry out extensive numerical exact diagonalization of the Coulomb interaction at 8/17 in the zeroth Landau level of bilayer graphene but find that our results cannot conclusively determine the topological order of the underlying ground state. We work out the low-energy effective theory of the (8/3) 21^3 edge and make predictions for experimentally measurable properties of the state which can tell it apart from the 8/17 Levin-Halperin state.