Ensemble from Coarse Graining: Reconstructing the Interior of an Evaporating Black Hole

TL;DR

This paper explores how different gauge choices in quantum gravity relate the interior and exterior of an evaporating black hole, revealing insights into unitarity, chaos, and the nature of spacetime through ensemble and coarse-graining perspectives.

Contribution

It introduces a framework connecting global and unitary gauge descriptions of black holes, elucidating the interior-exterior relationship and the ensemble nature of gravitational path integrals.

Findings

Interior spacetime in global gauge relates to horizon chaos and scrambling.

Ensemble nature of gravity emerges from coarse graining in global spacetime.

Interior degrees of freedom are linked to exterior via entanglement wedge reconstruction.

Abstract

In understanding the quantum physics of a black hole, nonperturbative aspects of gravity play important roles. In particular, huge gauge redundancies of a gravitational theory at the nonperturbative level, which are much larger than the standard diffeomorphism and relate even spaces with different topologies, allow us to take different descriptions of a system. While the physical conclusions are the same in any description, the same physics may manifest itself in vastly different forms in descriptions based on different gauge choices. In this paper, we explore the relation between two such descriptions, which we refer to as the global gauge and unitary gauge constructions. The former is based on the global spacetime of general relativity, in which understanding unitarity requires the inclusion of subtle nonperturbative effects of gravity. The latter is based on a distant view of the black hole, in which unitarity is manifest but the existence of interior spacetime is obscured. These two descriptions are complementary. In this paper, we initiate the study of learning aspects of one construction through the analysis of the other. We find that the existence of near empty interior spacetime manifest in the global gauge construction is related to the maximally chaotic, fast scrambling, and universal dynamics of the horizon in the unitary gauge construction. We use the complementarity of the gauge choices to understand the ensemble nature of the gravitational path integral in global spacetime in terms of coarse graining and thermality in a single unitary theory that does not involve any ensemble nature at the fundamental level. We also discuss how the interior degrees of freedom are related with those in the exterior in the two constructions. This relation emerges most naturally as entanglement wedge reconstruction and the effective theory of the interior in the respective constructions.