Applied Hyperfunction Theory

Applied Hyperfunction Theory

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Description

Generalized functions are now widely recognized as important mathematical tools for engineers and physicists. But they are considered to be inaccessible for non-specialists. To remedy this situation, this book gives an intelligible exposition of generalized functions based on Sato's hyperfunction, which is essentially the `boundary value of analytic functions'. An intuitive image -- hyperfunction = vortex layer -- is adopted, and only an elementary knowledge of complex function theory is assumed. The treatment is entirely self-contained.
The first part of the book gives a detailed account of fundamental operations such as the four arithmetical operations applicable to hyperfunctions, namely differentiation, integration, and convolution, as well as Fourier transform. Fourier series are seen to be nothing but periodic hyperfunctions. In the second part, based on the general theory, the Hilbert transform and Poisson-Schwarz integral formula are treated and their application to integral equations is studied. A great number of formulas obtained in the course of treatment are summarized as tables in the appendix. In particular, those concerning convolution, the Hilbert transform and Fourier transform contain much new material.
For mathematicians, mathematical physicists and engineers whose work involves generalized functions.
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Product details

  • Hardback | 438 pages
  • 155 x 235 x 26.92mm | 853g
  • Dordrecht, Netherlands
  • English
  • 1992 ed.
  • XIX, 438 p.
  • 0792315073
  • 9780792315070

Table of contents

Series Editor's Preface. Preface. 1. Introduction. 2. Operations on Hyperfunctions. 3. Basic Hyperfunctions. 4. Hyperfunctions Depending on Parameters. 5. Fourier Transformation. 6. Fourier Transformation of Power-Type Hyperfunctions. 7. Upper (Lower)-Type Hyperfunctions. 8. Fourier Transforms - Existence and Regularity. 9. Fourier Transformation - Asymptotic Behaviour. 10. Periodic Hyperfunctions and Fourier Series. 11. Analytic Continuation and Projection of Hyperfunctions. 12. Products of Hyperfunctions. 13. Convolution of Hyperfunctions. 14. Convolution of Periodic Hyperfunctions. 15. Hilbert Transformation, Conjugate Hyperfunction. 16. Poisson-Schwarz Integration Formulae. 17. Integral Equations. 18. Laplace Transformation. Epilogue. References. Appendices A: Symbols. B: Functions, Hyperfunctions and Generating Functions. C: Special Functions. D: Power-Type Hyperfunctions with Negative Integer Power. E: Upper-Type and Lower-Type Hyperfunctions. F: Hyperfunctions and Generating Functions. G: Convolutions. H: Hilbert Transforms. I: Fourier Transforms. J: Laplace Transforms. K: Cosine Transforms and Sine Transforms. Index.
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