Bulk-cone singularities and echoes from AdS exotic compact objects

TL;DR

This paper develops a method using AdS/CFT to detect signatures of exotic compact objects, like gravastars and wormholes, through characteristic Green function imprints such as bulk-cone singularities and echoes.

Contribution

It introduces a novel approach to probe inside the photon sphere of compact objects by analyzing dual Green functions for signatures of horizon absence.

Findings

Bulk-cone singularities reveal null geodesics specific to exotic objects.

Echoes indicate wave modes trapped inside the photon sphere.

Explicit calculations for AdS gravastar and wormhole confirm the signatures.

Abstract

The region near a black hole horizon may be modified by quantum gravity effects that resolve the singularity. Such geometry may be represented by an exotic compact object. Because the horizon is enclosed by a photon sphere, it is difficult to probe this region directly. In this paper, we develop a method to study the region inside the photon sphere by applying the AdS/CFT correspondence. We extract signatures of the modified geometry from the retarded Green functions of the dual conformal field theory. The retarded Green functions can be computed from bulk wave functions of scalar field. We show that exotic compact objects leave two characteristic imprints: bulk-cone singularities and echoes. The bulk-cone singularities correspond to null geodesics in the bulk, allowing us to detect null trajectories that are specific to exotic compact objects. The echoes arise from wave modes trapped inside the photon sphere, and thus signal the absence of a horizon. As concrete examples, we study AdS gravastar and AdS wormhole. We compute the corresponding bulk wave functions both via the WKB approximation and through numerical analysis and observe the bulk-cone singularities and echoes explicitly.