Energy quantization at the "three-quarter Dirac point" in a magnetic field

Abstract

The quantization of the energy in a magnetic field (Landau quantization) at a three-quarter Dirac point is studied theoretically. The three-quarter Dirac point is realized in the system of massless Dirac fermions with the critically tilted Dirac cone in one direction, where a linear term disappears and a quadratic term α2 qx2 with aconstant α2 plays an important role. The energy is obtained as En α235 (n B)45, where n=1, 2, 3, …, by means of numerically and analytically solving the differential equation, as well as by the semiclassical quantization rule. The existence of the n=0 state is studied by introducing the energy gap due to the inversion-symmetry-breaking term, and it is obtained that the n=0 state exists in one of a pair of three-quarter Dirac points, depending on the direction of the magnetic field when the energy gap is finite.