Chiral loop quantum supergravity and black hole entropy

Abstract

Recent work has shown that local supersymmetry on a spacetime boundary in N-extended AdS supergravity in chiral variables implies coupling to a boundary OSp(N|2)C super Chern-Simons theory. We propose a way to calculate the entropy S for the boundary, in the supersymmetric version of loop quantum gravity, for the minimal case N=1. We calculate the dimensions of the quantum state spaces of UOSp(1|2) super Chern-Simons theory with punctures, and analytically continue, for fixed quantum super area of the surface, to OSp(1|2)C. We find S = aH/4 for large areas and determine the subleading correction.