Central Charge for 2D Gravity on AdS(2) and AdS(2)/CFT(1) Correspondence

TL;DR

This paper investigates 2D Maxwell-dilaton gravity on AdS(2), demonstrating that a twisted energy momentum tensor with non-zero central charge allows for entropy calculations consistent with gravity, supporting the AdS(2)/CFT(1) correspondence.

Contribution

It introduces a method to compute the central charge for 2D gravity on AdS(2) and confirms the AdS(2)/CFT(1) correspondence through entropy matching.

Findings

Central charge is non-zero when using a twisted energy momentum tensor.

Entropy computed via Cardy formula matches gravity results.

Supports the validity of AdS(2)/CFT(1) correspondence.

Abstract

We study 2D Maxwell-dilaton gravity on AdS(2). We distinguish two distinctive cases depending on whether the AdS(2) solution can be lifted to an AdS(3) geometry. In both cases, in order to get a consistent boundary condition we need to work with a twisted energy momentum tensor which has non-zero central charge. With this central charge and the explicit form of the twisted Virasoro generators we compute the entropy of the system using the Cardy formula. The entropy is found to be the same as that obtained from gravity calculations for a specific value of the level of the U(1) current. The agreement is an indication of $AdS(2)/CFT(1) correspondence.