Low Temperature Physics: 33, 617 (2007); https://doi.org/10.1063/1.2755208 (8 pages)
Физика Низких Температур: Том 33, Выпуск 6-7 (Июнь 2007), c. 805-813 ( к оглавлению , назад )
Cluster relaxation dynamics in liquids and solids near the glass-transformation temperature
Departamento de Fнsica, Universidade Federal de Minas Gerais, Instituto de Ci ências Exatas Caixa Postal 702, Belo Horizonte 30123-970, Brazil
Received October 5, 2006
The structural relaxation in glass forming materials is studied near the glass transformation temperature Tg indicated by the heat capacity maximum. The late-time asymptote of the Kohlrausch–Williams–Watts form of the relaxation function is rationalized via the mesoscopic-scale correlated regions in terms of the Debye-type clusters following the dynamic scaling law. It is repeatedly shown that regardless of underlying microscopic realizations in glass formers with site disorder the structural relaxation is driven by local random fields, described via the directed random walks model. The relaxation space dimension ds = 3 at Tg is suggested for relaxing units of fractal dimension df =5/2 for quadrupolar-glass clusters in ortho–para hydrogen mixtures, that is compared with entangled-chain clusters in polymers (d f =1) and solid-like clusters relaxing in supercooled molecular liquids (with ds = 6 and d f = 3). The relaxation dynamics of orientational-glass clusters in plastic crystals is attributed to the model of continuos time random walks in space ds = 6. As a by-product, the expansivity in polymers, molecular liquids and networks is predicted.
PACS: 61.41.+e Polymers, elastomers, and plastics;
Key words: cluster, relaxation, fitting forms, fractal cluster, fractal cluster treatment, thermodynamic instability.