Matching microscopic and macroscopic responses in glasses

Janus Collaboration: M. Baity-Jesi , E. Calore , A. Cruz , L. A. Fernandez , J. M. Gil-Narvion , A. Gordillo-Guerrero , D. I\~niguez , A. Maiorano

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E. Marinari V. Martin-Mayor J. Monforte-Garcia A. Mu\~noz-Sudupe D. Navarro G. Parisi S. Perez-Gaviro F. Ricci-Tersenghi J. J. Ruiz-Lorenzo S. F. Schifano B. Seoane A. Tarancon R. Tripiccione D. Yllanes

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classification ❄️ cond-mat.dis-nn cond-mat.stat-mech

keywords lengthmicroscopicanalysiscoherenceexperimentfunctionsjanusmacroscopic

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We first reproduce on the Janus and Janus II computers a milestone experiment that measures the spin-glass coherence length through the lowering of free-energy barriers induced by the Zeeman effect. Secondly we determine the scaling behavior that allows a quantitative analysis of a new experiment reported in the companion Letter [S. Guchhait and R. Orbach, Phys. Rev. Lett. 118, 157203 (2017)]. The value of the coherence length estimated through the analysis of microscopic correlation functions turns out to be quantitatively consistent with its measurement through macroscopic response functions. Further, non-linear susceptibilities, recently measured in glass-forming liquids, scale as powers of the same microscopic length.

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Matching microscopic and macroscopic responses in glasses

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