Competition between Energy and Dynamics in Memory Formation

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...

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Veröffentlicht in:Physical review letters 2023-05, Vol.130 (19), p.197201-197201, Article 197201
Hauptverfasser: Lindeman, Chloe W, Hagh, Varda F, Ip, Chi Ian, Nagel, Sidney R
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Sprache:eng
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Zusammenfassung: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.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.130.197201