Local and global spatial coupling mechanisms form the basis of transport processes that are of fundamental importance for the occurrence and the dynamic evolution of patterns on a mesoscopic and macroscopic scale. The present volume deals with these concepts and investigates applications in the fields of biophysics and chemistry.
Local and global spatial coupling mechanisms form the basis of transport processes that are of fundamental importance for the occurrence and the dynamic evolution of patterns on a mesoscopic and macroscopic scale. The present volume deals with these concepts and investigates applications in the fields of biophysics and chemistry.
Professor Dr. Walter Zimmermann ist Vizepräsident des Landgerichts Passau a.D. und Honorarprofessor für Bürgerliches Recht und Zivilprozessrecht an der Universität Regensburg.
Inhaltsangabe
Pattern formation in the developing visual cortex.- The molecular motor actin-myosin on a substrate.- Force and motion generation of molecular motors: A generic description.- Reaction-diffusion waves of reversible actin filament assembly drive cell oscillations and locomotion.- Vesicle dynamics in chemotaxis, haptotaxis, and under shear flow.- Chemotaxis and aggregation in the cellular slime mould.- Calcium waves in rat cardiac myocytes underlie the principles of self-organization in excitable media.- Inositol 1,4,5-trisphosphate induced calcium waves.- Electrophoretic mobility of charged spheres.- Complex fluids under shear: Block copolymers.- Coherent intramolecular dynamics in populations of allosteric enzymes.- Routes to chaos in the peroxidase-oxidase reaction.- Determination of fokker-planck equations from experimental data sets of complex systems.- The randomly driven ising ferromagnet.- Wave propagation in excitable media with fast inhibitor diffusion.- Mechanisms of spiral breakup in chemical and biological reaction-diffusion models.- Experimental realization and control of chemical turing-like patterns.- Reaction-diffusion patterns: From observations in halogene chemistry to a test for implication in mitosis.
Pattern formation in the developing visual cortex.- The molecular motor actin-myosin on a substrate.- Force and motion generation of molecular motors: A generic description.- Reaction-diffusion waves of reversible actin filament assembly drive cell oscillations and locomotion.- Vesicle dynamics in chemotaxis, haptotaxis, and under shear flow.- Chemotaxis and aggregation in the cellular slime mould.- Calcium waves in rat cardiac myocytes underlie the principles of self-organization in excitable media.- Inositol 1,4,5-trisphosphate induced calcium waves.- Electrophoretic mobility of charged spheres.- Complex fluids under shear: Block copolymers.- Coherent intramolecular dynamics in populations of allosteric enzymes.- Routes to chaos in the peroxidase-oxidase reaction.- Determination of fokker-planck equations from experimental data sets of complex systems.- The randomly driven ising ferromagnet.- Wave propagation in excitable media with fast inhibitor diffusion.- Mechanisms of spiral breakup in chemical and biological reaction-diffusion models.- Experimental realization and control of chemical turing-like patterns.- Reaction-diffusion patterns: From observations in halogene chemistry to a test for implication in mitosis.
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