Logarithmic corrections to black hole entropy in matter coupled N ≥ 1 Einstein-Maxwell supergravity

Abstract

We calculate the first three Seeley-DeWitt coefficients for fluctuation of the massless fields of an N=2 Einstein-Maxwell supergravity theory (EMSGT) distributed into different multiplets in d=4 space-time dimensions. By utilizing the Seeley-DeWitt data in the quantum entropy function formalism, we then obtain the logarithmic correction contribution of individual multiplets to the entropy of extremal Kerr-Newman family of black holes. Our results allow us to find the logarithmic entropy corrections for the extremal black holes in a fully matter coupled N=2,d=4 EMSGT, in a particular class of N=1,d=4 EMSGT as consistent decomposition of N=2 multiplets (N=2 N=1) and in N ≥ 3,d=4 EMSGTs by decomposing them into N=2 multiplets (N ≥ 3 N=2). For completeness, we also obtain logarithmic entropy correction results for the non-extremal Kerr-Newman black holes in the matter coupled N ≥ 1,d=4 EMSGTs by employing the same Seeley-DeWitt data into a different Euclidean gravity approach developed in arXiv:1205.0971.