Scaling and super-universality in the coarsening dynamics of the 3d random field Ising model

TL;DR

This paper investigates the coarsening dynamics of the 3D random field Ising model through Monte Carlo simulations, examining scaling behaviors and comparing with other glassy systems to understand universal out-of-equilibrium properties.

Contribution

It provides new insights into the super-universality and scaling properties of the 3D RFIM during coarsening, with comparative analysis across different disordered systems.

Findings

Identification of dynamic scaling and super-scaling in the RFIM

Comparison of RFIM behavior with spin-glass and colloidal systems

Insights into universal out-of-equilibrium properties of glassy systems

Abstract

We study the coarsening dynamics of the three-dimensional random field Ising model using Monte Carlo numerical simulations. We test the dynamic scaling and super-scaling properties of global and local two-time observables. We treat in parallel the three-dimensional Edward-Anderson spin-glass and we recall results on Lennard-Jones mixtures and colloidal suspensions to highlight the common and different out of equilibrium properties of these glassy systems.