Thermodynamic topology of black holes and an invariant of spacetime

TL;DR

This paper introduces a new topological approach to black hole thermodynamics that avoids nonphysical variables, revealing that the topological charge is an invariant of spacetime and provides insights into cosmological constants.

Contribution

It develops a conserved topological tensor based on the gradient flow of grand free energy, linking black hole solutions to spacetime invariants without nonphysical variables.

Findings

Black holes with the same background geometry share the same topological charge.

The topological charge is an invariant of spacetime.

Insights into the cosmological constant and AdS distance conjecture are provided.

Abstract

We represent a new approach to exploring the thermodynamic topology of black holes, without introducing the nonphysical variable $\Theta\in[0,\pi]$ considered in previous studies, where black holes can exchange both energy and matter with the environment, leading to a thermal and chemical equilibrium. We construct a conserved topological tensor based on the gradient flow of the off-shell grand free energy corresponding to a two-dimensional or higher-dimensional vector field whose zeros are black hole solutions. We obtain a topological charge that is the sum of the index of all zeros. We find that black holes that share the same background geometry would have the same topological charge, hence they belong to the same kind of solutions. This point implies that the topological charge characterizing the black hole thermodynamics is also an invariant of spacetime, leading to valuable insight into the observed cosmological constant and the AdS distance conjecture.