On thermal Nieh-Yan anomaly in topological Weyl materials

Abstract

We discuss the possibility of a gravitional Nieh-Yan anomaly of the type ∂μ jμ5 =γ T2 Ta Ta in topological Weyl materials, where T is temperature and Ta is the effective or emergent torsion. As distinct from the non-universal parameter in the conventional (zero temperature) Nieh-Yan anomaly -- with canonical dimensions of momentum -- the parameter γ is dimensionless. This suggests that the dimensionless parameter is fundamental, being determined by the geometry, topology and number of the number of chiral quantum fields without any explicit non-universal UV scales. This conforms with previous results in the literature, as well as spectral flow calculations using torsional magnetic field at finite temperature.