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Memory and rejuvenation effects in spin glasses are governed by more than one length scale

Memory and rejuvenation effects in the magnetic response of off-equilibrium spin glasses have been widely regarded as the doorway into the experimental exploration of ultrametricity and temperature chaos. Unfortunately, despite more than twenty years of theoretical efforts following the experimental...

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Published in:Nature physics 2023-07, Vol.19 (7), p.978-985
Main Authors: Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gonzalez-Adalid Pemartin, I., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz Sudupe, A., Navarro, D., Paga, I., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Yllanes, D.
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container_issue 7
container_start_page 978
container_title Nature physics
container_volume 19
creator Baity-Jesi, M.
Calore, E.
Cruz, A.
Fernandez, L. A.
Gil-Narvion, J. M.
Gonzalez-Adalid Pemartin, I.
Gordillo-Guerrero, A.
Iñiguez, D.
Maiorano, A.
Marinari, E.
Martin-Mayor, V.
Moreno-Gordo, J.
Muñoz Sudupe, A.
Navarro, D.
Paga, I.
Parisi, G.
Perez-Gaviro, S.
Ricci-Tersenghi, F.
Ruiz-Lorenzo, J. J.
Schifano, S. F.
Seoane, B.
Tarancon, A.
Yllanes, D.
description Memory and rejuvenation effects in the magnetic response of off-equilibrium spin glasses have been widely regarded as the doorway into the experimental exploration of ultrametricity and temperature chaos. Unfortunately, despite more than twenty years of theoretical efforts following the experimental discovery of memory and rejuvenation, these effects have, thus far, been impossible to reliably simulate. Yet, three recent developments convinced us to accept this challenge: first, the custom-built Janus II supercomputer makes it possible to carry out simulations in which the very same quantities that can be measured in single crystals of CuMn are computed from the simulation, allowing for a parallel analysis of the simulation and experimental data. Second, Janus II simulations have taught us how numerical and experimental length scales should be compared. Third, we have recently understood how temperature chaos materializes in aging dynamics. All these three aspects have proved crucial for reliably reproducing rejuvenation and memory effects on the computer. Our analysis shows that at least three different length scales play a key role in aging dynamics, whereas essentially all the theoretical analyses of the aging dynamics emphasize the presence and crucial role of a single glassy correlation length. Reliably probing rejuvenation and memory effects in spin glasses by means of simulations is difficult. Now, a state-of-the-art numerical study shows that at least three different length scales play a crucial role in aging dynamics of spin glasses.
doi_str_mv 10.1038/s41567-023-02014-6
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639/766/119/997
Aging
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Atomic
Classical and Continuum Physics
Complex Systems
Condensed Matter Physics
Crystals
Mathematical and Computational Physics
Molecular
Optical and Plasma Physics
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Physics and Astronomy
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Spin dynamics
Spin glasses
State-of-the-art reviews
Theoretical
title Memory and rejuvenation effects in spin glasses are governed by more than one length scale
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