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OverviewThe book contains the only available complete presentation of the mode-coupling theory (MCT) of complex dynamics of glass-forming liquids, dense polymer melts, and colloidal suspensions. It describes in a self-contained manner the derivation of the MCT equations of motion and explains that the latter define a model for a statistical description of non-linear dynamics.It is shown that the equations of motion exhibit bifurcation singularities, which imply the evolution of dynamical scenarios different from those studied in other non-linear dynamics theories. The essence of the scenarios is explained by the asymptotic solution theory of the equations of motion. The leading-order results deal with scaling laws and the range of validity of these general laws is obtained by the derivation of the leading-correction results.Comparisons of numerical solutions of the MCT equations of motion with the analytic results of the asymptotic analysis demonstrate various facets of the MCT dynamics. Some comparisons of MCT results with data are used to show the relevance of MCT for the discussion of amorphous matter dynamics. Full Product DetailsAuthor: Wolfgang Götze (, Department of Physics, Technical University of Munich)Publisher: Oxford University Press Imprint: Oxford University Press Volume: 143 Dimensions: Width: 17.10cm , Height: 3.70cm , Length: 23.80cm Weight: 0.996kg ISBN: 9780199656141ISBN 10: 0199656142 Pages: 654 Publication Date: 05 July 2012 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: To order  Stock availability from the supplier is unknown. We will order it for you and ship this item to you once it is received by us. Table of Contents1: Glassy dynamics of liquids 2: Correlation functions 3: Elements of liquid dynamics 4: Foundations of the mode-coupling theory 5: Extensions of the mode-coupling theory 6: Asymptotic relaxation laws AppendicesReviewsAuthor InformationProfessor Wolfgang Götze, Department of Physics, Technical University of Munich, Germany. Tab Content 6Author Website:Countries AvailableAll regions |
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