Disorder-induced tail states in a gapped bilayer graphene

Abstract

The instanton approach to the in-gap fluctuation states is applied to the spectrum of biased bilayer graphene. It is shown that the density of states falls off with energy measured from the band-edge as (ε) (-|ε/εt|3/2), where the characteristic tail energy, εt, scales with the concentration of impurities, ni, as ni2/3. While the bare energy spectrum is characterized by two energies: the bias-induced gap, V, and interlayer tunneling, t, the tail, εt, contains a single combination V1/3t2/3. We show that the above expression for (ε) in the tail actually applies all the way down to the mid-gap.