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Analytic Methods in the Theory of Differential and Pseudo-Differential Equations of Parabolic Type

  • Samuil D. Eidelman
  • Anatoly N. Kochubei
  • Stepan D. Ivasyshen

Part of the Operator Theory: Advances and Applications book series (OT, volume 152)

Table of contents

  1. Front Matter
    Pages i-ix
  2. Samuil D. Eidelman, Anatoly N. Kochubei, Stepan D. Ivasyshen
    Pages 1-52
  3. Samuil D. Eidelman, Anatoly N. Kochubei, Stepan D. Ivasyshen
    Pages 53-175
  4. Samuil D. Eidelman, Anatoly N. Kochubei, Stepan D. Ivasyshen
    Pages 177-264
  5. Samuil D. Eidelman, Anatoly N. Kochubei, Stepan D. Ivasyshen
    Pages 265-319
  6. Samuil D. Eidelman, Anatoly N. Kochubei, Stepan D. Ivasyshen
    Pages 321-361
  7. Back Matter
    Pages 363-390

About this book

Introduction

The theory of parabolic equations, a well-developed part of the contemporary partial differential equations and mathematical physics, is the subject theory of of an immense research activity. A continuing interest in parabolic equations is caused both by the depth and complexity of mathematical problems emerging here, and by its importance in specific applied problems of natural science, technology, and economics. This book aims at a consistent and, as far as possible, a complete exposition of analytic methods of constructing, investigating, and using fundamental solutions of the Cauchy problem for the following four classes of linear parabolic equations with coefficients depending on all variables: -7 E : 2b-parabolic partial differential equations (parabolic equations of a qua- l homogeneous structure), in which every spatial variable may have its own to the time variable. weight with respect E : degenerate partial differential equations of Kolmogorov's structure, which 2 generalize classical Kolmogorov equations of diffusion with inertia. E3: pseudo-differential equations with non-smooth quasi-homogeneous symbols. E : fractional diffusion equations. 4 These classes of equations generalize in various directions the classical equations and systems parabolic in the Petrovsky sense, which were defined in [180] and studied in a number of monographs [83, 45, 146, 107, 76] and survey articles [102, 1, 215, 70, 46].

Keywords

Cauchy problem Parabolic equations Pseudo-differential equations complexity differential equation diffusion mathematical physics partial differential equation solution

Authors and affiliations

  • Samuil D. Eidelman
    • 1
  • Anatoly N. Kochubei
    • 1
  • Stepan D. Ivasyshen
    • 2
  1. 1.Institute of MathematicsNational Academy of Sciences of UkraineKievUkraine
  2. 2.Department of Mathematical PhysicsNational Technical University of Ukraine Kiev Polytechnical InstituteKievUkraine

Bibliographic information