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CLASSICAL AND QUANTUM DISSIPATIVE SYSTEMS

by Mohsen Razavy (University of Alberta, Canada)

Table of Contents (61k)
Preface (46k)
Chapter 1: Introduction (87k)

This book discusses issues associated with the quantum mechanical formulation of dissipative systems. It begins with an introductory review of phenomenological damping forces, and the construction of the Lagrangian and Hamiltonian for the damped motion. It is shown, in addition to these methods, that classical dissipative forces can also be derived from solvable many-body problems. A detailed discussion of these derived forces and their dependence on dynamical variables is also presented. The second part of this book investigates the use of classical formulation in the quantization of dynamical systems under the influence of dissipative forces. The results show that, while a satisfactory solution to the problem cannot be found, different formulations represent different approximations to the complete solution of two interacting systems. The third and final part of the book focuses on the problem of dissipation in interacting quantum mechanical systems, as well as the connection of some of these models to their classical counterparts. A number of important applications, such as the theory of heavy-ion scattering and the motion of a radiating electron, are also discussed.
 
Contents:
  • Phenomenological Equations of Motion for Dissipative Systems
  • Lagrangian Formulations
  • Hamiltonian Formulation
  • Hamilton-Jacobi Formulation
  • Motion of a Charged Particle in an External Electromagnetic Field in the Presence of Damping
  • Noether and Non-Noether Symmetries and Conservation Laws
  • Dissipative Forces Derived from Many-Body Problems
  • A Particle Coupled to a Field
  • Damped Motion of the Central Particle
  • Classical Microscopic Models of Dissipation and Minimal Coupling Rule
  • Quantization of Dissipative Systems
  • Quantization of Explicitly Time-Dependent Hamiltonian
  • Density Matrix and the Wigner Distribution Function
  • Path Integral Formulation of a Damped Harmonic Oscillator
  • Quantization of the Motion of an Infinite Chain
  • The Heisenberg Equations of Motion for a Particle Coupled to a Heat Bath
  • Quantum Mechanical Models of Dissipative Systems
  • More on the Concept of Optical Potential
 
Readership: Researchers and graduate students in applied mathematics and theoretical physics.
 
 
352pp    Pub. date: Jan 2006  
ISBN:   978-1-86094-525-0
1-86094-525-2 		   US$170 / £112

 

352pp    Pub. date: Jan 2006  
ISBN:   978-1-86094-530-4(pbk)
1-86094-530-9(pbk) 		   US$96 / £63

 

352pp    Pub. date: Jan 2006  
ISBN:   978-1-86094-918-0(ebook)
1-86094-918-5(ebook) 		   US$221

 

 
  
Copyright © 2012 Imperial College Press Co. All rights reserved.