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Relaxation dynamics in the energy landscape of glass-forming liquids

We numerically study the zero-temperature relaxation dynamics of several glass-forming models to their inherent structures, following quenches from equilibrium configurations sampled across a wide range of initial temperatures. In a mean-field Mari-Kurchan model, we find that relaxation changes from a power-law to an exponential decay below a well-defined temperature, consistent with recent findings in mean-field $p$-spin models. By contrast, for finite-dimensional systems, the relaxation is always algebraic, with a non-trivial universal exponent at high temperatures crossing over to a harmonic value at low temperatures. We demonstrate that this apparent evolution is controlled by a temperature-dependent population of localised glassy excitations. Our work unifies several recent lines of studies aiming at a detailed characterisation of the complex potential energy landscape of glass-formers, and challenges both mean-field and real space descriptions of glasses.

preprint2022arXivOpen access
Yoshihiko NishikawaMisaki OzawaAtsushi IkedaPinaki ChaudhuriLudovic Berthier
cond-mat.stat-mechcond-mat.softcond-mat.dis-nn
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Yoshihiko NishikawaMisaki OzawaAtsushi IkedaPinaki ChaudhuriLudovic Berthier

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