Kinetic theory of tilted Dirac cone materials
Abstract
We formulate the Boltzmann kinetic equations for interacting tilted Dirac fermions in two space dimensions characterized by a tilt parameter 0ζ<1. Solving the linearized Boltzmann equation, we find that the broadening of the Drude pole is enhanced by (ζ)×(1-ζ2)-1/2, where the is interaction-induced enhancement factor. The intensity of the Drude pole is also anisotropically enhanced by (1-ζ2)-1. The ubiquitous "redshift" factors (1-ζ2)1/2 can be regarded as a manifestation of an underlying spacetime structure in such solids. The additional broadening indicates that interaction effects are more pronounced for electrons in a ζ-deformed Minkowski spacetime of tilted Dirac fermions.
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