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Competition between Energy and Dynamics in Memory Formation

Chloe W. Lindeman, Varda F. Hagh, Chi Ian Jess Ip, Sidney R. Nagel

2023Physical Review Letters13 citationsDOIOpen Access PDF

Abstract

Bistable objects that are pushed between states by an external field are often used as a simple model to study memory formation in disordered materials. Such systems, called hysterons, are typically treated quasistatically. Here, we generalize hysterons to explore the effect of dynamics in a simple spring system with tunable bistability and study how the system chooses a minimum. Changing the timescale of the forcing allows the system to transition between a situation where its fate is determined by following the local energy minimum to one where it is trapped in a shallow well determined by the path taken through configuration space. Oscillatory forcing can lead to transients lasting many cycles, a behavior not possible for a single quasistatic hysteron.

Topics & Concepts

BistabilityQuasistatic processForcing (mathematics)Simple (philosophy)Space (punctuation)Statistical physicsPhysicsEnergy (signal processing)Parameter spaceDynamics (music)Path (computing)Spring (device)Competition (biology)Field (mathematics)Computer scienceQuantum mechanicsMathematicsPure mathematicsPhilosophyThermodynamicsProgramming languageStatisticsAtmospheric sciencesEpistemologyEcologyAcousticsOperating systemBiologyNonlinear Dynamics and Pattern Formationstochastic dynamics and bifurcationTheoretical and Computational Physics
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