The scaling of black hole entropy in loop quantum gravity

Abstract

We discuss some general properties of black hole entropy in loop quantum gravity from the perspective of local stationary observers at distance l from the horizon. The present status of the theory indicates that black hole entropy differs from the low energy (IR) expected value A/(4G) (in natural units) in the deep Planckian regime (UV). The partition function is well defined if the number of non-geometric degrees of freedom gM (encoding the degeneracy of the area ap eigenvalue at a puncture p) satisfy the holographic bound gM < exp(ap/(4G)). Our framework provides a natural renormalization mechanism such that SUV ---> SIR=A/(4 G) as the scale l flows.