Voros product and noncommutative inspired black holes

Abstract

We emphasize the importance of the Voros product in defining noncommutative inspired black holes. The computation of entropy for both the noncommutative inspired Schwarzschild and Reissner-Nordstr\"om black holes show that the area law holds upto order 1θe-M2/θ. The leading correction to the entropy (computed in the tunneling formalism) is shown to be logarithmic. The Komar energy E for these black holes is then obtained and a deviation from the standard identity E=2STH is found at the order θe-M2/θ. This deviation leads to a nonvanishing Komar energy at the extremal point TH=0 of these black holes. The Smarr formula is finally worked out for the noncommutative Schwarzschild black hole. Similar features also exist for a deSitter--Schwarzschild geometry.