Lyapunov Exponents and Phase Transitions in Four-Dimensional AdS Black Holes with a Nonlinear Electrodynamics Source

TL;DR

This paper explores how Lyapunov exponents can serve as dynamical indicators of phase transitions and critical phenomena in four-dimensional AdS black holes with nonlinear electrodynamics, revealing universal scaling laws.

Contribution

It demonstrates that Lyapunov exponents can detect both first-order and second-order phase transitions in black holes, establishing a unified dynamical framework for thermodynamic criticality.

Findings

Lyapunov exponent exhibits multivaluedness and discontinuity at phase transitions.

Critical behavior of Lyapunov exponent follows a mean-field scaling law with exponent 1/2.

Spinodal temperatures coincide with singular features in the Lyapunov exponent.

Abstract

We investigate the relationship between dynamical instability and thermodynamic phase transitions in four-dimensional Anti--de Sitter black holes in Einstein gravity coupled to a nonlinear power-law electromagnetic field with exponent $p = 3/4$. In the canonical ensemble, we identify a critical electric charge $Q_c$ separating a regime exhibiting a first-order small/large black-hole (SBH/LBH) phase transition from a regime with a single thermodynamically stable phase. For both massless and massive probes, the thermal profile of the Lyapunov exponent $\lambda(T)$ becomes multivalued in the SBH/LBH coexistence region and exhibits a finite discontinuity at the transition temperature. This jump vanishes continuously as $Q \to Q_c$, signaling the termination of the first-order transition at a second-order critical point. Near criticality, the Lyapunov discontinuity obeys a universal mean-field scaling law with critical exponent $1/2$. For massless probes, we further analyze the critical impact parameter $b_c$, which displays the same multivalued structure and critical behavior as the Lyapunov exponent. We also demonstrate that the spinodal temperatures, defined by the extrema of the $T(r_h)$ curve where the heat capacity at fixed charge diverges, coincide with singular features in the Lyapunov exponent. Our results identify the Lyapunov exponent as a unified dynamical probe capable of capturing both first-order phase coexistence and second-order critical behavior in black-hole thermodynamics.