Theory of Competing Charge Density Wave, Kekule and Antiferromagnetic ordered Fractional Quantum Hall states in Graphene aligned with Boron Nitride

Abstract: We investigate spin and valley symmetry-broken fractional quantum Hall phases within a formalism that naturally extends the paradigm of quantum Hall ferromagnetism from integer to fractional quantum Hall states, allowing us to construct detailed phase diagrams for a large class of multicomponent states. Motivated by recent experiments on Graphene aligned with a Boron Nitride substrate, we predict a sequence of transitions realized by increasing the magnetic field, starting from a sub-lattice polarized state to… Show more

“…The fractional quantum Hall effect (FQHE) has also been observed in graphene [4,[8][9][10][25][26][27] and some experiments have revealed an unusual pattern of fractions that follows the standard composite fermion sequence between filling factors ν = 0 and ν = 1 but involves only even-numerator fractions between ν = 1 and ν = 2 [10]. Theoretically, the FQHE in graphene has attracted considerable interest [28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44][45]. In particular, Refs.…”

Collective excitations of fractional quantum Hall states in monolayer graphene

“…The fractional quantum Hall effect (FQHE) has also been observed in graphene [4,[8][9][10][25][26][27] and some experiments have revealed an unusual pattern of fractions that follows the standard composite fermion sequence between filling factors ν = 0 and ν = 1 but involves only even-numerator fractions between ν = 1 and ν = 2 [10]. Theoretically, the FQHE in graphene has attracted considerable interest [28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44][45]. In particular, Refs.…”

Collective excitations of fractional quantum Hall states in monolayer graphene