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Recent years have witnessed a resurgence in the kinetic approach to
dynamic many-body problems. Modern kinetic theory offers a unifying
theoretical framework within which a great variety of seemingly
unrelated systems can be explored in a coherent way. Kinetic
methods are currently being applied in such areas as the dynamics
of colloidal suspensions, granular material flow, electron
transport in mesoscopic systems, the calculation of Lyapunov
exponents and other properties of classical many-body systems
characterised by chaotic behaviour. The present work focuses on
Brownian motion, dynamical systems, granular flows, and quantum
kinetic theory.
Recent years have witnessed a resurgence in the kinetic approach to
dynamic many-body problems. Modern kinetic theory offers a unifying
theoretical framework within which a great variety of seemingly
unrelated systems can be explored in a coherent way. Kinetic
methods are currently being applied in such areas as the dynamics
of colloidal suspensions, granular material flow, electron
transport in mesoscopic systems, the calculation of Lyapunov
exponents and other properties of classical many-body systems
characterised by chaotic behaviour. The present work focuses on
Brownian motion, dynamical systems, granular flows, and quantum
kinetic theory.
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