Excitonic gap, phase transition, and quantum Hall effect in graphene: strong-coupling regime
arXiv:cond-mat/0612488
Abstract
We suggest that physics underlying the recently observed removal of sublattice and spin degeneracies in graphene in a strong magnetic field describes a phase transition connected with the generation of excitonic and spin gaps. The strong-coupling regime is described using a phenomenological model with enhanced Zeeman splitting (spin gap) and excitonic gaps. The experimental form of the Hall conductivity $Ï_{xy}$ with the additional $ν= 0, \pm 1$ plateaus is reproduced. The form of $Ï_{xy}$ in the case of a strong-coupling regime with no enhanced Zeeman splitting is also discussed.
Revtex4, 10 pages, 6 figures