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Ordinary and Stochastic Differential Geometry as a Tool for Mathematical Physics

  • Book
  • © 1996

Overview

Authors:
  1. Yuri E. Gliklikh

    1. Mathematics Faculty, Voronezh State University, Voronezh, Russia

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Part of the book series: Mathematics and Its Applications (MAIA, volume 374)

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Table of contents (6 chapters)

  1. Front Matter

    Pages i-xvi
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  2. Elements of Coordinate — Free Differential Geometry

    • Yuri E. Gliklikh
    Pages 1-44

  3. Introduction To Stochastic Analysis in Rn

    • Yuri E. Gliklikh
    Pages 45-74

  4. Stochastic Differential Equations on Manifolds

    • Yuri E. Gliklikh
    Pages 75-98

  5. Langevin’S Equation in Geometric Form

    • Yuri E. Gliklikh
    Pages 99-106

  6. Nelson’S Stochastic Mechanics

    • Yuri E. Gliklikh
    Pages 107-136

  7. The Lagrangian Approach To Hydrodynamics

    • Yuri E. Gliklikh
    Pages 137-165

  8. Back Matter

    Pages 166-192
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Keywords

About this book

The geometrical methods in modem mathematical physics and the developments in Geometry and Global Analysis motivated by physical problems are being intensively worked out in contemporary mathematics. In particular, during the last decades a new branch of Global Analysis, Stochastic Differential Geometry, was formed to meet the needs of Mathematical Physics. It deals with a lot of various second order differential equations on finite and infinite-dimensional manifolds arising in Physics, and its validity is based on the deep inter-relation between modem Differential Geometry and certain parts of the Theory of Stochastic Processes, discovered not so long ago. The foundation of our topic is presented in the contemporary mathematical literature by a lot of publications devoted to certain parts of the above-mentioned themes and connected with the scope of material of this book. There exist some monographs on Stochastic Differential Equations on Manifolds (e. g. [9,36,38,87]) based on the Stratonovich approach. In [7] there is a detailed description of It6 equations on manifolds in Belopolskaya-Dalecky form. Nelson's book [94] deals with Stochastic Mechanics and mean derivatives on Riemannian Manifolds. The books and survey papers on the Lagrange approach to Hydrodynamics [2,31,73,88], etc. , give good presentations of the use of infinite-dimensional ordinary differential geometry in ideal hydrodynamics. We should also refer here to [89,102], to the previous books by the author [53,64], and to many others.

Reviews

` ... the author has successfully arranged them [the topics] into a smooth, coherent rexposition. It is highly recommended for those readers with good background knowledge in differential geometry, stochastic analysis, and mathematical physics.'
Mathematical Reviews, 98k

Authors and Affiliations

  • Mathematics Faculty, Voronezh State University, Voronezh, Russia

    Yuri E. Gliklikh

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