Dynamical correlations near dislocation jamming

TL;DR

This paper investigates the critical transition in dislocation assemblies near jamming, revealing diverging dynamical correlations and avalanche-like behavior as the critical stress is approached.

Contribution

It introduces a first-passage analysis of dislocation dynamics near jamming, identifying a diverging dynamical susceptibility and correlation length, and relates these to avalanche phenomena.

Findings

First passage time distribution scales near the transition

Dynamical susceptibility diverges as ( ext{σ}- ext{σ}_c)^{-α} with α≈1.1

A diverging dynamical correlation length ξ_y is observed perpendicular to dislocation glide

Abstract

Dislocation assemblies exhibit a jamming or yielding transition at a critical external shear stress value $\sigma=\sigma_c$. Nevertheless the nature of this transition has not been ascertained. Here we study the heterogeneous and collective nature of dislocation dynamics within a crystal plasticity model close to $\sigma_c$, by considering the first-passage properties of the dislocation dynamics. As the transition is approached in the moving phase, the first passage time distribution exhibits scaling, and a related peak {\it dynamical} susceptibility $\chi_4^*$ diverges as $\chi_4^* \sim (\sigma-\sigma_c)^{-\alpha}$, with $\alpha \approx 1.1$. We relate this scaling to an avalanche description of the dynamics. While the static structural correlations are found to be independent of the external stress, we identify a diverging dynamical correlation length $\xi_y$ in the direction perpendicular to the dislocation glide motion.