On Geometro-thermodynamics of Dilaton Black Holes

Jan E. Aman; Narit Pidokrajt; John Ward

arXiv:0711.2201·hep-th·January 14, 2009

On Geometro-thermodynamics of Dilaton Black Holes

Jan E. Aman, Narit Pidokrajt, John Ward

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TL;DR

This paper explores the geometro-thermodynamics of dilaton black holes in various dimensions and frames, analyzing their thermodynamic geometry to uncover underlying physical properties and differences.

Contribution

It provides new insights into the thermodynamic geometry of dilaton black holes across different models and dimensions, extending previous studies to include dyonic and 2D cases.

Findings

01

Thermodynamic geometry varies between Einstein and string frames.

02

Dyonic dilaton black holes exhibit distinct geometric features.

03

Preliminary results on 2D dilaton black holes are reported.

Abstract

In this talk we present the latest results from our ongoing project on geometro-thermodynamics (also known as information geometry of thermodynamics or Ruppeiner geometry) of dilaton BHs in 4D in both Einstein and string frames and a dyonic dilaton BH and at the end we report very briefly results from this approach to the 2D dilaton BHs.

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