Properties of Schroedinger Black Holes from AdS Space

Bom Soo Kim; Daiske Yamada

arXiv:1008.3286·hep-th·August 30, 2011

Properties of Schroedinger Black Holes from AdS Space

Bom Soo Kim, Daiske Yamada

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TL;DR

This paper presents a method to analyze Schroedinger black holes using AdS black holes in light-cone coordinates, simplifying calculations of physical properties like conductivity and thermodynamics.

Contribution

It introduces a novel approach that leverages AdS black holes in light-cone coordinates to study Schroedinger black holes more straightforwardly.

Findings

01

Computed DC conductivity for Schroedinger black holes.

02

Derived thermodynamic properties of R-charged Schroedinger black holes.

03

Demonstrated the method's advantages over direct analysis.

Abstract

Properties of Schroedinger black holes are derived from AdS black holes expressed in light-cone coordinates with a particular normalization. The advantages of this method over the direct analysis of the Schroedinger geometry are the simplicity and the well-defined Brown-York procedure with the standard counterterms. The method is demonstrated for several physical interests, including the computation of the DC conductivity and the derivation of the R-charged black hole thermodynamic properties.

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