Simulations and crumpled-matter experiments reveal that thermal avalanches in logarithmic creep have a hierarchical spatio-temporal structure in which fast compact cascades facilitate subsequent activations via noise-mediated correlations, producing heavy-tailed temporal statistics.
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Biomimetic emulsions with adhesion differentials show progressive compaction and yielding shifts under oscillatory shear, linked to high adhesion contrast via experiments and vertex model simulations.
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Spatiotemporal Hierarchy of Slow Avalanches During Creep
Simulations and crumpled-matter experiments reveal that thermal avalanches in logarithmic creep have a hierarchical spatio-temporal structure in which fast compact cascades facilitate subsequent activations via noise-mediated correlations, producing heavy-tailed temporal statistics.
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Adhesion differentials control the rheology of biomimetic emulsions
Biomimetic emulsions with adhesion differentials show progressive compaction and yielding shifts under oscillatory shear, linked to high adhesion contrast via experiments and vertex model simulations.