Entropy current in two dimensional anomalous hydrodynamics and a bound on the sum of the response parameters

Abstract

The exact expression for the entropy current of a fluid in presence of two dimensional gravitational anomalies is given. To make it compatible with the second law of thermodynamics; i.e. positivity of the entropy production rate of a system (which is considered to be fundamental), we find a bound on the sum of the two response parameters (C1 and C2), in terms of the trace and diffeomorphism anomaly coefficients (cw and cg). The precise expression, we obtain here, is C1 + C2≤ 4π2cw + 8π2 cg. Interestingly, when the bound is saturated corresponding to a reversible process, the result reproduces earlier findings obtained by either studying field theory on the cone or using the Israel-Hartle-Hawking boundary condition. Finally, possible physical implications and connections with the existing approaches are addressed.