English

Black hole microstructures in the extremal limit

General Relativity and Quantum Cosmology 2023-12-12 v2

Abstract

The microstructure of black holes is a mystery. There is yet no resolution of basic questions such as what the constituent particles are. We work here with black hole thermodynamics (BHT), and the metric geometry of thermodynamics, which connects to interparticle interactions via the invariant thermodynamic Ricci scalar curvature RR. RR may be calculated with BHT. In ordinary thermodynamics (OT), RR is positive/negative for interparticle interactions repulsive/attractive. Its magnitude is the correlation length. The basic universality of thermodynamics leads us to expect similar relations for BHT. Our contribution here is motivated by a physical simplification that frequently occurs at low temperatures TT in OT: complicated interactions tend to freeze out, leaving only basic quantum statistical interactions, those of ideal Fermi or Bose gasses. Our hope is that similar simplification happens in black holes in the extremal limit, where the BHT temperature T0T \to 0. We evaluate the extremal RR for twelve BHT literature models, working with the independent variables mass, angular momentum, charge, and the cosmological constant, {M,J,Q,Λ}\{M,J,Q,\Lambda\}, respectively. We allowed only two of these variables to fluctuate at a time, with the other two fixed. MM always fluctuated, either JJ or QQ fluctuated, and Λ\Lambda was always fixed. At constant average MM, RR has limiting divergence R=cT1R=c\,T^{-1}, with the nonsingular constant cc depending only on MM and the two fixed parameters. cc is positive for 11/1211/12 of the models we examined, and negative only for the tidal charged model. The positive sign for RR indicates a BHT microstructure composed of particles with repulsive (fermionic) interactions. The limiting BHT expression for RR resembles that for 2D and 3D ideal Fermi gasses at constant volume, which also have limiting divergence R=cT1R=c\,T^{-1}, with positive cc.

Keywords

Cite

@article{arxiv.2304.06187,
  title  = {Black hole microstructures in the extremal limit},
  author = {George Ruppeiner and Alexandru-Mihail Sturzu},
  journal= {arXiv preprint arXiv:2304.06187},
  year   = {2023}
}

Comments

- Added some exposition to the end of sections 3 -Updated Image Quality in Figures 3 and 4 -Minor typographical fixes

R2 v1 2026-06-28T10:03:20.766Z