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arxiv: 2208.11037 · v1 · pith:QQWBHJRM · submitted 2022-08-23 · cond-mat.soft · cond-mat.stat-mech

Many-body correlations are non-negligible in both fragile and strong glassformers

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classification cond-mat.soft cond-mat.stat-mech
keywords correlationsstaticdynamichigher-ordertripletdirectdynamicsfragile
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It is widely believed that the emergence of slow glassy dynamics is encoded in a material's microstructure. First-principles theory [mode-coupling theory (MCT)] is able to predict the dramatic slowdown of the dynamics from only static two-point correlations as input, yet it cannot capture all of the observed dynamical behavior. Here we go beyond two-point spatial correlation functions by extending MCT systematically to include higher-order static and dynamic correlations. We demonstrate that only adding the static triplet direct correlations already qualitatively changes the predicted glass-transition diagram of binary hard spheres and silica. Moreover, we find a non-trivial competition between static triplet correlations that work to stabilize the glass state, and dynamic higher-order correlations which destabilize it for both materials. We conclude that the conventionally neglected static triplet direct correlations as well as higher-order dynamic correlations are in fact non-negligible in both fragile and strong glassformers.

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