Temperature chaos is present in off-equilibrium spin-glass dynamics

While temperature chaos is an equilibrium notion that denotes the extreme fragility of the glassy phase with respect to temperature changes, it remains unclear whether it is present in non-equilibrium dynamics. Here the authors use the Janus II supercomputer to prove the existence of dynamic tempera...

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Autores principales: Marco Baity-Jesi, Enrico Calore, Andrés Cruz, Luis Antonio Fernandez, José Miguel Gil-Narvion, Isidoro Gonzalez-Adalid Pemartin, Antonio Gordillo-Guerrero, David Iñiguez, Andrea Maiorano, Enzo Marinari, Víctor Martin-Mayor, Javier Moreno-Gordo, Antonio Muñoz-Sudupe, Denis Navarro, Ilaria Paga, Giorgio Parisi, Sergio Perez-Gaviro, Federico Ricci-Tersenghi, Juan Jesús Ruiz-Lorenzo, Sebastiano Fabio Schifano, Beatriz Seoane, Alfonso Tarancon, Raffaele Tripiccione, David Yllanes
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/34d5cc5ee3314178bb1f88c5a1d60f3a
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Sumario:While temperature chaos is an equilibrium notion that denotes the extreme fragility of the glassy phase with respect to temperature changes, it remains unclear whether it is present in non-equilibrium dynamics. Here the authors use the Janus II supercomputer to prove the existence of dynamic temperature chaos, a nonequilibrium phenomenon that closely mimics equilibrium temperature chaos.