Uniform quenching processes in a holographic s+p model with reentrance

TL;DR

This paper investigates the dynamics of phase transitions in a holographic s+p model, focusing on reentrant behavior and the competition between condensates during quenching processes.

Contribution

It introduces a holographic model exhibiting reentrant phase transitions and analyzes the real-time evolution of condensates under different quenching conditions.

Findings

Reentrant phase transition observed in the holographic model.

Different quenching speeds affect condensate evolution.

Competition between orders influences phase transition dynamics.

Abstract

We study the homogenous quenching processes in a holographic s+p model with reentrant phase transitions. We first realize the reentrant phase transition in the holographic model in probe limit and draw the phase diagram. Next, we compare the time evolution of the two condensates in two groups of numerical quenching experiments across the reentrant region, with different quenching speed as well as different width of the reentrant region, respectively. We also study the dynamical competition between the two orders in quenching processes from the normal phase to the superconductor phase.