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Axionic field theory of (3+1)-dimensional Weyl semi-metals

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arxiv 1210.6352 v3 pith:BGXLKA3V submitted 2012-10-23 cond-mat.mes-hall cond-mat.str-elhep-th

Axionic field theory of (3+1)-dimensional Weyl semi-metals

classification cond-mat.mes-hall cond-mat.str-elhep-th
keywords fieldhalltheorychiralelectromagneticweylanomalousanomaly
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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From a direct calculation of the anomalous Hall conductivity and an effective electromagnetic action obtained via Fujikawa's chiral rotation technique, we conclude that an axionic field theory with a non-quantized coefficient describes the electromagnetic response of the $(3+1)$-dimensional Weyl semi-metal. The coefficient is proportional to the momentum space separation of the Weyl nodes. Akin to the Chern-Simons field theory of quantum Hall effect, the axion field theory violates gauge invariance in the presence of the boundary, which is cured by the chiral anomaly of the surface states via the Callan-Harvey mechanism. This provides a unique solution for the radiatively induced CPT-odd term in the electromagnetic polarization tensor of the Lorentz violating spinor electrodynamics, where the source of the Lorentz violation is a constant axial four vector term for the Dirac fermion. A direct linear response calculation also establishes anomalous thermal Hall effect and a Wiedemann-Franz law, but thermal Hall conductivity does not directly follow from the well known formula for the gravitational chiral anomaly.

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