Anomalous DC Hall response in noncentrosymmetric tilted Weyl semimetals

Abstract

Weyl nodes come in pairs of opposite chirality. For broken time reversal symmetry (TR) they are displaced in momentum space by Q and the anomalous DC Hall conductivity σxy is proportional to Q at charge neutrality. For finite doping there are additive corrections to σxy which depend on the chemical potential as well as on the tilt (C) of the Dirac cones and on their relative orientation. If inversion symmetry (I) is also broken the Weyl nodes are shifted in energy by an amount Q0. This introduces further changes in σxy and we provide simple analytic formulas for these modifications for both type I (C<1) and type II (C>1, overtilted) Weyl. For type I when the Weyl nodes have equal magnitude but oppositely directed tilts, the correction to σxy is proportional to the chemical potential μ and completely independent of the energy shift Q0. When instead the tilts are parallel, the correction is linear in Q0 and μ drops out. For type II the corrections involve both μ and Q0, are nonlinear and also involve a momentum cut off. We discuss the implied changes to the Nernst coefficient and to the thermal Hall effect of a finite Q0.