Amorphous condensed matter can exhibit complex motions on time scales which extend up to those relevant for the functioning of biomaterials. The book presents the derivation of a microscopic theory for amorphous matter, which exhibits the evolution of such complex motions as a new paradigm of strongly interacting particle systems.
Amorphous condensed matter can exhibit complex motions on time scales which extend up to those relevant for the functioning of biomaterials. The book presents the derivation of a microscopic theory for amorphous matter, which exhibits the evolution of such complex motions as a new paradigm of strongly interacting particle systems.
Professor Wolfgang Götze, Department of Physics, Technical University of Munich, Germany.
Inhaltsangabe
1: 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 Appendices
1: 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 Appendices
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