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Yielding Is an Absorbing Phase Transition with Vanishing Critical Fluctuations

Tristan Jocteur, Shana Figueiredo, Kirsten Martens, Éric Bertin, Romain Mari

2024Physical Review Letters11 citationsDOIOpen Access PDF

Abstract

The yielding transition in athermal complex fluids can be interpreted as an absorbing phase transition between an elastic, absorbing state with high mesoscopic degeneracy and a flowing, active state. We characterize quantitatively this phase transition in an elastoplastic model under fixed applied shear stress, using a finite-size scaling analysis. We find vanishing critical fluctuations of the order parameter (i.e., the shear rate), and relate this property to the convex character of the phase transition (β>1). We locate yielding within a family of models akin to fixed-energy sandpile (FES) models, only with long-range redistribution kernels with zero modes that result from mechanical equilibrium. For redistribution kernels with sufficiently fast decay, this family of models belongs to a short-range universality class distinct from the conserved directed percolation class of usual FES, which is induced by zero modes.

Topics & Concepts

Mesoscopic physicsPhase transitionDirected percolationScalingPhysicsStatistical physicsCritical exponentRenormalization groupCondensed matter physicsQuantum mechanicsMathematicsGeometryMaterial Dynamics and PropertiesTheoretical and Computational PhysicsRheology and Fluid Dynamics Studies
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