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Article Dans Une Revue Physical Review Letters Année : 2017

Spatio-temporal patterns in ultra-slow domain wall creep dynamics

Résumé

In presence of impurities, ferromagnetic and ferroelectric domain walls slide only above a finite external field. Close to this depinning threshold, they proceed by large and abrupt jumps, called avalanches, while, at much smaller field, these interfaces creep by thermal activation. In this work we develop a novel numerical technique that captures the ultra-slow creep regime over huge time scales. We point out the existence of activated events that involve collective reorganizations similar to avalanches, but, at variance with them, display correlated spatio-temporal patterns that resemble the complex sequence of aftershocks observed after a large earthquake. Remarkably, we show that events assembly in independent clusters that display at large scales the same statistics as critical depinning avalanches. We foresee this correlated dynamics being experimentally accessible by magneto-optical imaging of ferromagnetic films.

Dates et versions

hal-01522050 , version 1 (12-05-2017)

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Ezequiel E. Ferrero, Laura Foini, Thierry Giamarchi, Alejandro B. Kolton, Alberto Rosso. Spatio-temporal patterns in ultra-slow domain wall creep dynamics. Physical Review Letters, 2017, 118 (14), pp.147208. ⟨hal-01522050⟩
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