Remark on the synergy between the heat kernel techniques and the parity anomaly

Abstract

In this paper, we demonstrate that not only the heat kernel techniques are useful for computation of the parity anomaly, but also the parity anomaly turns out to be a powerful mean in studying the heat kernel. We show that the gravitational parity anomaly on four-dimensional manifolds with boundaries can be calculated using the general structure of the heat kernel coefficient [Formula: see text] for mixed boundary conditions, keeping all the weights of various geometric invariants as unknown numbers. The symmetry properties of the [Formula: see text]-invariant allow to fix all the relevant unknowns. As a byproduct of this calculation, we get an efficient and independent crosscheck (and confirmation) of the correction of the general structure of [Formula: see text] for mixed boundary conditions, previously suggested in [I. G. Moss, Anomalies, boundaries and the in–in formalism, J. Phys. A 45 (2012) 374022, https://doi.org/10.1088/1751-8113/45/37/374022 ].