Structure and structure relaxation

T. Franosch; W. Götze; M. R. Mayr; A. P. Singh

doi:10.1016/S0022-3093(98)00500-6

Structure and structure relaxation

T. Franosch, W. Götze, M. R. Mayr, A. P. Singh

TUM Emeriti of Excellence

Technische Universität München

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

39 Zitate (Scopus)

Abstract

A discrete-dynamics model, which is specified solely in terms of a system's equilibrium structure, is defined for the density correlators of a simple fluid. This model yields results for the evolution of glassy dynamics which are identical with the ones obtained from the mode-coupling theory for ideal liquid-glass transitions. The decay of density fluctuations outside the transient regime is shown to be given by a superposition of Debye processes. The concept of structural relaxation is given a precise meaning. It is proven that the long-time part of the mode-coupling theory solutions is structural relaxation, while the transient motion merely determines an overall time scale for the glassy dynamics.

Originalsprache	Englisch
Seiten (von - bis)	71-85
Seitenumfang	15
Fachzeitschrift	Journal of Non-Crystalline Solids
Jahrgang	235-237
DOIs	https://doi.org/10.1016/S0022-3093(98)00500-6
Publikationsstatus	Veröffentlicht - 2 Aug. 1998

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title = "Structure and structure relaxation",

abstract = "A discrete-dynamics model, which is specified solely in terms of a system's equilibrium structure, is defined for the density correlators of a simple fluid. This model yields results for the evolution of glassy dynamics which are identical with the ones obtained from the mode-coupling theory for ideal liquid-glass transitions. The decay of density fluctuations outside the transient regime is shown to be given by a superposition of Debye processes. The concept of structural relaxation is given a precise meaning. It is proven that the long-time part of the mode-coupling theory solutions is structural relaxation, while the transient motion merely determines an overall time scale for the glassy dynamics.",

author = "T. Franosch and W. G{\"o}tze and Mayr, {M. R.} and Singh, {A. P.}",

note = "Funding Information: We thank H.Z. Cummins, M. Fuhs and W. Kob for discussions and constructive criticism of our manuscript. Our work was supported by Verbundprojekt BMBF 03GO4TUM.",

year = "1998",

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doi = "10.1016/S0022-3093(98)00500-6",

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AU - Franosch, T.

AU - Götze, W.

AU - Mayr, M. R.

AU - Singh, A. P.

N1 - Funding Information: We thank H.Z. Cummins, M. Fuhs and W. Kob for discussions and constructive criticism of our manuscript. Our work was supported by Verbundprojekt BMBF 03GO4TUM.

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Y1 - 1998/8/2

N2 - A discrete-dynamics model, which is specified solely in terms of a system's equilibrium structure, is defined for the density correlators of a simple fluid. This model yields results for the evolution of glassy dynamics which are identical with the ones obtained from the mode-coupling theory for ideal liquid-glass transitions. The decay of density fluctuations outside the transient regime is shown to be given by a superposition of Debye processes. The concept of structural relaxation is given a precise meaning. It is proven that the long-time part of the mode-coupling theory solutions is structural relaxation, while the transient motion merely determines an overall time scale for the glassy dynamics.

AB - A discrete-dynamics model, which is specified solely in terms of a system's equilibrium structure, is defined for the density correlators of a simple fluid. This model yields results for the evolution of glassy dynamics which are identical with the ones obtained from the mode-coupling theory for ideal liquid-glass transitions. The decay of density fluctuations outside the transient regime is shown to be given by a superposition of Debye processes. The concept of structural relaxation is given a precise meaning. It is proven that the long-time part of the mode-coupling theory solutions is structural relaxation, while the transient motion merely determines an overall time scale for the glassy dynamics.

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Structure and structure relaxation

Abstract

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