Pseudospin, velocity and Berry phase in a bilayer graphene

Abstract

Hamiltonian and eigenstate problem is formulated for a bilayer graphene in terms of Clifford's geometric algebra Cl3,1. It is shown that such approach allows to perform analytical calculations in a simple way if geometrical algebra rotors are used. The measured quantities are express through spectrum and rotation half-angle of the pseudospin that appears in geometric algebra rotors. Properties of free charge carriers -- pseudospin, velocity and Berry phase -- in a bilayer graphene are investigated in the presence of the external voltage applied between the two layers.