Out-of-equilibrium dynamical fluctuations in glassy systems
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2004-11-22
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Abstract
In this paper we extend the earlier treatment of out-of-equilibrium mesoscopic fluctuations in glassy systems in several significant ways. First, via extensive simulations, we demonstrate that models of glassy behavior without quenched disorder display scalings of the probability of local two-time correlators that are qualitatively similar to that of models with short-ranged quenched interactions. The key ingredient for such scaling properties is shown to be the development of a criticallike dynamical correlation length, and not other microscopic details. This robust data collapse may be described in terms of a time-evolving "extreme value" distribution. We develop a theory to describe both the form and evolution of these distributions based on a effective σ model approach. © 2004 American Institute of Physics.
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Chamon, C, P Charbonneau, LF Cugliandolo, DR Reichman and M Sellitto (2004). Out-of-equilibrium dynamical fluctuations in glassy systems. Journal of Chemical Physics, 121(20). pp. 10120–10137. 10.1063/1.1809585 Retrieved from https://hdl.handle.net/10161/12585.
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Patrick Charbonneau
Patrick Charbonneau is Professor of Physics at Duke University. His research in soft matter and statistical physics uses theory and computer simulations to study glassy materials and frustrated systems. He also contributes to the history of science, curating projects on quantum and statistical physics as well as food history.
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