This lecture is meant as an introduction to stochastic mechanics for graduate students. The concepts and most of the statements are formulated in precise and exact mathematical language. Nevertheless, the emphasis is on the physical concepts. The authors discuss thoroughly the aspects of stochastic mechanics in quantum mechanics, firstly as a way of quantization as proposed by E. Nelson and secondly, as a tool to give a more detailed description of microphysics within the framework of the standard form of quantum theory. Another part of their work treats stochastic mechanics as a general description of a class of dynamical systems disturbed by some isotropic translation invariant noise thus extending Nelson's theory within the framework of classical physics. The necessary tools like stochastic processes, in particular those used in mathematical physics, existence and construction of diffusion processes as well as stochastic variational principles are presented in detail. Here is certainly an excellent text on this important field of mathematical physics.
Author(s): Ph. Blanchard, Ph. Combe, W. Zheng (auth.)
Series: Lecture Notes in Physics 281
Publisher: Springer Berlin Heidelberg
Year: 1987
Language: English
Commentary: +OCR
Pages: 178
Tags: Mathematical Methods in Physics; Numerical and Computational Methods
Introduction....Pages 1-21
Kinematics of stochastic diffusion processes....Pages 22-59
Nelson stochastic dynamics — Newtonian processes....Pages 60-81
Global existence for diffusions with singular drifts....Pages 82-96
Stochastic variational principles....Pages 97-113
Two viewpoints concerning quantum and stochastic mechanics....Pages 114-136
A non-quantal look at stochastic mechanics....Pages 137-146