Evolution of Spontaneous Structures in Dissipative Continuous Systems
Busse, Friedrich H.
Evolution of Spontaneous Structures in Dissipative Continuous Systems [electronic resource] / by Friedrich H. Busse, Stefan C. Müller. - X, 586 p. online resource. - Lecture Notes in Physics Monographs, 55 0940-7677 ; . - Lecture Notes in Physics Monographs, 55 .
Mathematical Tools for Pattern Formation -- Formation of Dynamical Structures in Axisymmetric Fluid Systems -- Pattern Formation in Binary Fluid Convection and in Systems with Throughflow -- Dynamical Structures in Open Fluid Systems -- Theoretical and Experimental Investigations of the Faraday Instability -- Pattern Formation in an Inhomogeneous Environment -- Electrically Driven Instabilities in Smectic Liquid Crystal Films -- Electrohydrodynamic Convection in Nematics -- Dynamics of Patterns of Chemical Reactions on Surfaces -- Convection and Pattern Formation Induced by Autocatalytic Chemical Reactions -- Formation of Spatio-Temporal Structures in Semiconductors -- Formation of Patterns in Granular Materials -- Spontaneous Generation of Magnetic Fields in the Laboratory -- From Single Cells to a Multicellular Organism: The Development of the Social Amoebae Dictyostelium Discoideum.
This collection of articles forms a cohesive text on the rapidly evolving field of nonlinear dynamics of continous systems. It addresses researchers but it can also be used as a text for graduate work. The authors demonstrate through numerous examples the use of common tools of mathematical analyses and dynamical interpretations for the study of nonlinear phenomena. Instead of providing a comprehensive overview of the rapidly evolving field, the contributors treat the essence of what is known about the formation of spontaneous structures in dissipative continuous systems and about the competition between order and chaos that characterizes those systems. The topics discussed in this volume range from mathematical foundations to interpretations of concrete phenomena in fluids, chemical reactions, structure forming processes in semiconductors and even biological organisms.
9783540495376
10.1007/3-540-49537-1 doi
Mathematical physics.
Thermodynamics.
Optical materials.
Complex Systems.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Thermodynamics.
Optical and Electronic Materials.
Biological and Medical Physics, Biophysics.
QC174.7-175.36
621
Evolution of Spontaneous Structures in Dissipative Continuous Systems [electronic resource] / by Friedrich H. Busse, Stefan C. Müller. - X, 586 p. online resource. - Lecture Notes in Physics Monographs, 55 0940-7677 ; . - Lecture Notes in Physics Monographs, 55 .
Mathematical Tools for Pattern Formation -- Formation of Dynamical Structures in Axisymmetric Fluid Systems -- Pattern Formation in Binary Fluid Convection and in Systems with Throughflow -- Dynamical Structures in Open Fluid Systems -- Theoretical and Experimental Investigations of the Faraday Instability -- Pattern Formation in an Inhomogeneous Environment -- Electrically Driven Instabilities in Smectic Liquid Crystal Films -- Electrohydrodynamic Convection in Nematics -- Dynamics of Patterns of Chemical Reactions on Surfaces -- Convection and Pattern Formation Induced by Autocatalytic Chemical Reactions -- Formation of Spatio-Temporal Structures in Semiconductors -- Formation of Patterns in Granular Materials -- Spontaneous Generation of Magnetic Fields in the Laboratory -- From Single Cells to a Multicellular Organism: The Development of the Social Amoebae Dictyostelium Discoideum.
This collection of articles forms a cohesive text on the rapidly evolving field of nonlinear dynamics of continous systems. It addresses researchers but it can also be used as a text for graduate work. The authors demonstrate through numerous examples the use of common tools of mathematical analyses and dynamical interpretations for the study of nonlinear phenomena. Instead of providing a comprehensive overview of the rapidly evolving field, the contributors treat the essence of what is known about the formation of spontaneous structures in dissipative continuous systems and about the competition between order and chaos that characterizes those systems. The topics discussed in this volume range from mathematical foundations to interpretations of concrete phenomena in fluids, chemical reactions, structure forming processes in semiconductors and even biological organisms.
9783540495376
10.1007/3-540-49537-1 doi
Mathematical physics.
Thermodynamics.
Optical materials.
Complex Systems.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Thermodynamics.
Optical and Electronic Materials.
Biological and Medical Physics, Biophysics.
QC174.7-175.36
621