New attractor mechanism for spherically symmetric extremal black holes

Abstract

We introduce a new attractor mechanism to find the entropy for spherically symmetric extremal black holes. The key ingredient is to find a two-dimensional (2D) dilaton gravity with the dilaton potential V(φ). The condition of an attractor is given by ∇2φ=V(φ0) and R2=-V(φ0) and for a constant dilaton φ=φ0, these are also used to find the location of the degenerate horizon r=re of an extremal black hole. As a nontrivial example, we consider an extremal regular black hole obtained from the coupled system of Einstein gravity and nonlinear electrodynamics. The desired Bekenstein-Hawking entropy is successfully recovered from the generalized entropy formula combined with the 2D dilaton gravity, while the entropy function approach does not work for obtaining this entropy.