Quantum Phase Transition in Hall Conductivity on an Anisotropic Kagome Lattice

Abstract

We study the quantum Hall effect(QHE) on the Kagom\'e lattice with anisotropy in one of the hopping integrals. We find a new type of QHE characterized by the quantization rules for Hall conductivity σxy=2ne2/h and Landau Levels E(n)= vF(n+1/2) Be (n is an integer), which is different from any known type. This phase evolves from the QHE phase with σxy=4(n+1/2)e2/h and E(n)= vF2n Be in the isotropic case, which is realized in a system with massless Dirac fermions (such as in graphene). The phase transition does not occur simultaneously in all Hall plateaus as usual but in sequence from low to high energies, with the increase of hopping anisotropy.