Near-Extremal Limits of Warped Black Holes

TL;DR

This paper investigates the near-extremal limits of warped black holes within different ensembles, establishing a holographic dictionary and comparing thermodynamic and quantum properties, ultimately validating the canonical ensemble and ruling out the quadratic ensemble.

Contribution

It provides a detailed holographic analysis of warped black holes in near-extremal regimes, clarifying the role of ensembles and establishing consistency with warped conformal field theories.

Findings

Canonical ensemble results agree with near-AdS$_2$ and warped CFT descriptions.

Quadratic ensemble is inconsistent at the quantum level with near-AdS$_2$ analysis.

Holographic dictionary for near-AdS$_2$ region of warped black holes established.

Abstract

A holographic description of three-dimensional warped black holes suffers from ambiguities due to a seemingly harmless choice of coordinate system. This gives rise to the notion of ensembles in warped black holes, and we focus on two of them: the canonical and quadratic ensemble. Our aim is to quantify the imprint of these ensembles in the near-extremal limit of a warped black hole. To this end, for each ensemble, we explore the thermodynamic response and evaluate greybody factors. We also set-up a holographic dictionary in their near-AdS$_2$ region, and decode aspects of the dual near-CFT$_1$. This gives us different perspectives of the black hole that we can contrast and compare. On the one hand, we find perfect agreement between the near-extremal limit of the canonical ensemble warped black holes, their near-AdS$_2$ effective analysis, and a warped conformal field theory description. On the other, we are led to rule out the quadratic ensemble due to inconsistencies at the quantum level with the near-AdS$_2$ effective description.