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Generalizing multiple memories from a single drive: The hysteron latch

Chloe W. Lindeman, Travis R. Jalowiec, Nathan C. Keim

2025Science Advances15 citationsDOIOpen Access PDF

Abstract

Far-from-equilibrium systems can form memories of previous deformations or driving. In systems from sheared glassy materials to buckling beams to crumpled sheets, this behavior is dominated by return-point memory, in which revisiting a past extremum of driving restores the system to a previous state. Cyclic driving with both positive and negative strains forms multiple nested memories, as in a single-dial combination lock, while asymmetric driving (only positive strain) cannot. We study this case in a general model of hysteresis that considers discrete elements called hysterons. We show how two hysterons with a frustrated interaction can violate return-point memory, realizing multiple memories of asymmetric driving. This reveals a general principle for designing systems that store sequences of cyclic driving, whether symmetric or asymmetric. In disordered systems, asymmetric driving is a sensitive tool for the direct measurement of frustration.

Topics & Concepts

HysteresisFrustrationPoint (geometry)Computer scienceLock (firearm)Control theory (sociology)Topology (electrical circuits)PhysicsMathematicsCondensed matter physicsStructural engineeringEngineeringGeometryControl (management)CombinatoricsArtificial intelligenceTheoretical and Computational PhysicsNonlinear Dynamics and Pattern FormationForce Microscopy Techniques and Applications
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