Abstract
Dislocation assemblies in crystalline substrates represent a new example of the broad class of systems that exhibit a jamming (or yielding) transition. Rheology experiments carried out on this broad class of systems ranging from granular media to foams show that their dynamics becomes increasingly heterogeneous when approaching the jamming threshold. Likewise, experiments on crystal plasticity at various scales have recently emphasized the heterogeneous character of plastic flow. Crystal dislocations move in a intermittent manner as a result of the combined effects of kinetic constraints and long range anisotropic dislocation interactions, which together may induce metastable jammed dislocation configurations. Building up upon these premises, here we explore further the analogy between simple two‐dimensional dislocation ensembles and other systems exhibiting jamming, by considering the behavior of the so‐called dynamic four point susceptibility χ4(1,τ), as well as the shear stress distributions in both ja...
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