Null infinity as SU(2) Chern-Simons theories and its quantization

Abstract

This paper studies the quantization of the future null infinity (I+) of an asymptotically flat spacetime. Based on the observation by Ashtekar and Speziale that I+ can be regarded as a weakly isolated horizon, we adopt the quantization framework developed for weakly horizon to quantize I+. We first show that the symplectic structure of I+ is equivalent to the sum of the symplectic structures of two SU(2) Chern-Simons theories with opposite levels. Based on this observation, we apply Chern-Simons quantization approach to quantize I+. Finally, we compute the entropy of I+ by counting the microstates, showing that it is proportional to the area of , a spacelike cross-section of I+. Our result is consistent with the universal entropy formula in the framework of (weakly) isolated horizon.