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Paper detail

Self-organization, Memory and Learning: From Driven Disordered Systems to Living Matter

Disordered systems subject to a fluctuating environment can self-organize into a complex history-dependent response, retaining a memory of the driving. In sheared amorphous solids, self-organization is established by the emergence of a persistent system of mechanical instabilities that can repeatedly be triggered by the driving, leading to a state of high mechanical reversibility. As a result of self-organization, the response of the system becomes correlated with the dynamics of its environment, which can be viewed as a sensing mechanism of the system's environment. Such phenomena emerge across a wide variety of soft matter systems, suggesting that they are generic and hence may depend very little on the underlying specifics. We review self-organization in driven amorphous solids, concluding with a discussion of what self-organization in driven disordered systems can teach us about how simple organisms sense and adapt to their changing environments.

preprint2025arXivOpen access
Muhittin MunganEric ClementDamien VandembroucqSrikanth Sastry
Cell Behaviorcond-mat.stat-mechcond-mat.softcond-mat.mtrl-scicond-mat.dis-nn
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Muhittin MunganEric ClementDamien VandembroucqSrikanth Sastry

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