Many-Body Correlations Are Non-negligible in Both Fragile and Strong Glassformers

Chengjie Luo; Joshua F. Robinson; Ilian Pihlajamaa; Vincent E. Debets; C. Patrick Royall; Liesbeth M.C. Janssen

doi:10.1103/PhysRevLett.129.145501

Many-Body Correlations Are Non-negligible in Both Fragile and Strong Glassformers

Chengjie Luo (Corresponding author)
, Joshua F. Robinson
, Ilian Pihlajamaa
, Vincent E. Debets
, C. Patrick Royall
, Liesbeth M.C. Janssen

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

14 Citaten (Scopus)

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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 nontrivial competition between static triplet correlations that work to stabilize the glass state and dynamic higher-order correlations that 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.

Originele taal-2	Engels
Artikelnummer	145501
Aantal pagina's	7
Tijdschrift	Physical Review Letters
Volume	129
Nummer van het tijdschrift	14
DOI's	https://doi.org/10.1103/PhysRevLett.129.145501
Status	Gepubliceerd - 30 sep. 2022

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Publisher Copyright:
© 2022 American Physical Society.

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We thank Gilles Tarjus for insightful discussions. This work has been financially supported by the Dutch Research Council (NWO) through a START-UP grant (C. L., V. E. D., and L. M. C. J.) and Vidi grant (I. P. and L. M. C. J.). J. F. R. and C. P. R. gratefully acknowledge funding through the European Research Council (ERC consolidator Grant No. NANOPRS, project 617266). C. P. R. acknowledges funding through the ANR grant DiViNew.

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abstract = "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 nontrivial competition between static triplet correlations that work to stabilize the glass state and dynamic higher-order correlations that 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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Many-Body Correlations Are Non-negligible in Both Fragile and Strong Glassformers

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