期刊论文详细信息
Universality and its origins at the amorphous solidification transition
Article
关键词: CROSS-LINKED MACROMOLECULES;    SOLID-STATE;    STATISTICAL-MECHANICS;    MICROSCOPIC THEORY;    GLASS-TRANSITION;    SPIN-GLASSES;    NETWORKS;    VULCANIZATION;    LOCALIZATION;    RIGIDITY;   
DOI  :  10.1103/PhysRevB.57.839
来源: SCIE
【 摘 要 】

Systems undergoing an equilibrium phase transition from a liquid state to an amorphous solid state exhibit certain universal characteristics. Chief among these are the fraction of particles that are randomly localized and the scaling functions that describe the order parameter and (equivalently) the statistical distribution of localization lengths far these localized particles. The purpose of this paper is to discuss the origins and consequences of this universality, and in doing so, three themes are explored. First, a replica-landau-type approach is formulated for the universality class of systems that are composed of extended objects connected by permanent random constraints and undergo amorphous solidification at a critical density of constraints. This formulation generalizes the cases of randomly cross-linked and end-linked macromolecular systems, discussed previously. The universal replica free energy is constructed, in terms of the replica order parameter appropriate to amorphous solidification, the value of the order parameter is obtained in the liquid and amorphous solid states, and the chief universal characteristics are determined. Second, the theory is reformulated in terms of the distribution of local static density fluctuations rather than the replica order parameter. It is shown that a suitable free energy can be constructed, depending on the distribution of static density fluctuations, and that this formulation yields precisely the same conclusions as the replica approach. Third, the universal predictions of the theory are compared with the results of extensive numerical simulations of randomly cross-linked macromolecular systems, due to Barsky and Plischke, and excellent agreement is found. [S0163-1829(98)04102-2].

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