Optical properties of anisotropic Dirac semimetals

Abstract

The current-dipole conductivity formula for doped three-dimensional Dirac semimetals is derived by using a modified gauge-invariant tight-binding approach. In a heavily doped regime, the effective number of charge carriers nα α eff in the Drude contribution is found to be by a factor of 4 larger than the nominal electron concentration n. However, its structure is the same as in standard Fermi liquid theory. In a lightly doped regime, on the other hand, the ratio nα α eff/n is much larger, with much more complex structure of nα α eff. It is shown that the dc resistivity and reflectivity date measured in two TlBiSSe samples can be easily understood, even in the relaxation-time approximation, provided that finite quasiparticle lifetime effects in the momentum distribution functions are properly taken into account.

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