Gravitational Cardy limit and AdS black hole entropy
Marina David, Jun Nian, Leopoldo A. Pando Zayas
Abstract
A bstract We explore the gravitational implementation of the field theory Cardy-like limit recently used in the successful microstate countings of AdS black hole entropy in various dimensions. On the field theory side, the Cardy-like limit focuses on a particular scaling of conserved electric charges and angular momenta and we first translate this scaling to the gravitational side by a limiting procedure on the black hole parameters. We note that the scaling naturally accompanies a near-horizon region for which these black hole solutions are greatly simplified. Applying the Kerr/CFT correspondence to the near-horizon region, we precisely reproduce the Bekenstein-Hawking entropy of asymptotically AdS 4 , 5 , 6 , 7 BPS black holes. Our results explicitly provide a microscopic and universal low energy description for AdS black holes across various dimensions.