Entropy of black holes in topologically massive gravity

Abstract

We study the issue of black hole entropy in the topologically massive gravity. Assuming that the presence of gravitational Chern-Simons term with the coupling 1/μ does modify the horizon radius r+, we propose SBH=π r+/2G3 as the Bekenstein-Hawking entropy. This entropy of CS-BTZ black hole satisfies the first-law of thermodynamics and the area-law but it is slightly different from the shifted-entropy Sc=π r+/2G3+ (1/μ l)π r-/2G3 based on the BTZ black hole with outer r+ and inner horizon r-. In the case of r-=0, SBH represents the entropy of non-rotating BTZ black hole with the Chern-Simons term (NBTZ-CS), while Sc reduces to the entropy of NBTZ black hole. It shows that SBH may be a candidate for the entropy of the CS-BTZ black hole.