Thermodynamics and Transport Properties | |||
Session 362 - Supercooled Liquids and Glasses | |||
Supercooled liquids and glasses are interesting and complex forms of matter that possess unusual thermodynamic and transport properties. Glasses generally exhibit disordered, but not necessarily liquid-like, structure at the molecular level; however, they display solid-like relaxation dynamics and elastic responses. Supercooled liquids, especially network-formers such as water, exhibit anomalous thermodynamic properties and highly cooperative, non-Arrhenius relaxation dynamics. We welcome papers that address the fundamental understanding and/or practical application of these systems, from either an experimental, theoretical, or computational viewpoint. | |||
Chair: | Thomas M. Truskett | ||
CoChair: | Dan Lacks | ||
362a | Robust Links between Structure / Thermodynamics and Dynamics of Supercooled Liquids Jeetain Mittal, Jeffrey R. Errington, Thomas M. Truskett | ||
362b | Common Origin of Thermo-Mechanical Anomalies in Different Network Glasses Liping Huang, John Kieffer | ||
362c | Spatially Heterogeneous Dynamics and String-like Motion in Granular Matter and Comparison with Glass-Forming Liquids Aaron S. Keys, Adam R. Abate, Sharon C. Glotzer, Douglas J. Durian | ||
362d | Novel Computational Probes of Diffusion in Supercooled Liquids and Their Application to Rotation-Translation Decoupling in O-Terphenyl Thomas Lombardo, M. Scott Shell, Frank H. Stillinger, Pablo G. Debenedetti | ||
362e | A Parametric Equation of State near the Liquid-Liquid Critical Point in Supercooled Water Mikhail A. Anisimov, Daphne A. Fuentevilla | ||
362f | A Stochastic Model for Describing Glassy Materials Subjected to Complex Thermal and Loading Histories James M. Caruthers, Grigori Medvedev | ||
362g | Extension of Glass Transition Model to Mixtures Lisa A. Brenskelle, Ben McCoy | ||
362h | Plastic Deformation in Amorphous Polymers : a Free Energy Landscape Approach Dimitrios Tsalikis, Georgios C. Boulougouris, Loukas D. Peristeras, Doros N. Theodorou |
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