Difference between revisions of "Book:Gabor Szegő/Orthogonal Polynomials/Fourth Edition"
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| − | {{Book|Orthogonal Polynomials| | + | {{Book|Orthogonal Polynomials (fourth edition)|1975|American Mathematical Society|0-8218-1023-5|Gabor Szegő}} |
| − | ===Online | + | ===Online copies=== |
[https://people.math.osu.edu/nevai.1/SZEGO/szego=szego1975=ops=OCR.pdf hosted by The Ohio State University]<br /> | [https://people.math.osu.edu/nevai.1/SZEGO/szego=szego1975=ops=OCR.pdf hosted by The Ohio State University]<br /> | ||
| + | |||
| + | ===Contents=== | ||
| + | :PREFACE | ||
| + | :PREFACE TO THE REVISED EDITION | ||
| + | :PREFACE TO THE THIRD EDITION | ||
| + | :PREFACE TO THE FOURTH EDITION | ||
| + | :CHAPTER I. PRELIMINARIES | ||
| + | ::1.1. Notation | ||
| + | ::[[Signum|$(1.1.1)$]] | ||
| + | ::[[Signum|$(1.1.2)$]] | ||
| + | ::1.11. Inequalities | ||
| + | ::1.12. Polynomials and trigonometric polynomials | ||
| + | ::1.2. Representation of non-negative trigonometric polynomials | ||
| + | :::1.2.1. Theorem of Lukacs concerning non-negative polynomials | ||
| + | :::1.2.2. Theorems of S. Bernstein | ||
| + | ::1.3. Approximation by Polynomials | ||
| + | ::1.4. Orthogonality; weight function; vectors in function spaces | ||
| + | ::1.5. Closure; integral approximations | ||
| + | ::1.6. Linear functional operations | ||
| + | ::1.7. The Gamma function | ||
| + | :::1.7.1. Bessel functions | ||
| + | ::1.8. Differential equations | ||
| + | :::1.8.1. Airy's function | ||
| + | :::1.8.2. Theorems of Sturm's type | ||
| + | ::1.9. An elementary conformal mapping | ||
| + | :::1.9.1. The principle of argument; Rouche's theorem; sequences of analytic functions | ||
| + | :CHAPTER II. DEFINITION OF ORTHOGONAL POLYNOMIALS; PRINCIPAL EXAMPLES | ||
| + | ::2.1. Orthogonality | ||
| + | ::2.2. Orthogonal Polynomials | ||
| + | ::2.3. Further Examples | ||
| + | ::2.4. The Classical Orthogonal Polynomials | ||
| + | ::2.5. A formula of Christoffel | ||
| + | ::2.6. A class of polynomials considered by S. Bernstein and G. Szegő | ||
| + | ::2.7. Stieltjes-Wigert polynomials | ||
| + | ::2.8. Distributions of Stieltjes type; an analogue of Legendre polynomials | ||
| + | :::2.8.1. Poisson-Charlier polynomials | ||
| + | :::2.8.2. Krawtchouk's polynomials | ||
| + | ::2.9. Further special cases | ||
| + | :CHAPTER III. GENERAL PROPERTIES OF ORTHOGONAL POLYNOMIALS | ||
| + | :CHAPTER IV. JACOBI POLYNOMIALS | ||
| + | ::4.1. Definition; notation; special cases | ||
| + | :::[[Jacobi P|page 58]] | ||
| + | :::Theorem 4.1. | ||
| + | ::4.2. Differential equation | ||
| + | ::::[[Differential equation for Jacobi P|Theorem 4.2.1]] | ||
| + | ::::Theorem 4.2.2. | ||
| + | :::4.21. Hypergeometric functions | ||
| + | :::4.22. Generalization | ||
| + | :::4.23. Second solution | ||
| + | :::4.24. Transformation of the differential equation | ||
| + | ::4.3. Rodrigues' formula; the orthonormal set | ||
| + | ::4.4. Generating function | ||
| + | ::4.5. Recurrence formula | ||
| + | ::4.6. Integral representations in general | ||
| + | :::4.61. Application; functions of the second kind | ||
| + | :::4.62. Further properties of the functions of the second kind | ||
| + | ::4.7. Ultraspherical polynomials | ||
| + | ::4.8. Integral representations for Legendre polynomials | ||
| + | :::4.81. Legendre functions of the second kind | ||
| + | :::4.82. Generalizations | ||
| + | ::4.9. Trigonometric representations | ||
| + | ::4.10. Further properties of Jacobi polynomials | ||
| + | :CHAPTER V. LAGUERRE AND HERMITE POLYNOMIALS | ||
| + | :CHAPTER VI. ZEROS OF ORTHOGONAL POLYNOMIALS | ||
| + | :CHAPTER VII. INEQUALITIES | ||
| + | :CHAPTER VIII. ASYMPTOTIC PROPERTIES OF THE CLASSICAL POLYNOMIALS | ||
| + | :CHAPTER IX. EXPANSION PROBLEMS ASSOCIATED WITH THE CLASSICAL POLYNOMIALS | ||
| + | :CHAPTER X. REPRESENTATION OF POSITIVE FUNCTIONS | ||
| + | :CHAPTER XI. POLYNOMIALS ORTHOGONAL ON THE UNIT CIRCLE | ||
| + | :CHAPTER XII. ASYMPTOTIC PROPERTIES OF GENERAL ORTHOGONAL POLYNOMIALS | ||
| + | :CHAPTER XIII. EXPANSION PROBLEMS ASSOCIATED WITH GENERAL ORTHOGONAL POLYNOMIALS | ||
| + | :CHAPTER XIV. INTERPOLATION | ||
| + | :CHAPTER XV. MECHANICAL QUADRATURE | ||
| + | :CHAPTER XVI. POLYNOMIALS ORTHOGONAL ON AN ARBITRARY CURVE | ||
| + | :PROBLEMS AND EXERCISES | ||
| + | :FURTHER PROBLEMS AND EXERCISES | ||
| + | :APPENDIX | ||
| + | :LIST OF REFERENCES | ||
| + | :FURTHER REFERENCES | ||
| + | :INDEX | ||
| + | |||
| + | [[Category:Book]] | ||
Latest revision as of 02:58, 15 July 2018
Gabor Szegő: Orthogonal Polynomials (fourth edition)
Published $1975$, American Mathematical Society
- ISBN 0-8218-1023-5.
Online copies
hosted by The Ohio State University
Contents
- PREFACE
- PREFACE TO THE REVISED EDITION
- PREFACE TO THE THIRD EDITION
- PREFACE TO THE FOURTH EDITION
- CHAPTER I. PRELIMINARIES
- 1.1. Notation
- $(1.1.1)$
- $(1.1.2)$
- 1.11. Inequalities
- 1.12. Polynomials and trigonometric polynomials
- 1.2. Representation of non-negative trigonometric polynomials
- 1.2.1. Theorem of Lukacs concerning non-negative polynomials
- 1.2.2. Theorems of S. Bernstein
- 1.3. Approximation by Polynomials
- 1.4. Orthogonality; weight function; vectors in function spaces
- 1.5. Closure; integral approximations
- 1.6. Linear functional operations
- 1.7. The Gamma function
- 1.7.1. Bessel functions
- 1.8. Differential equations
- 1.8.1. Airy's function
- 1.8.2. Theorems of Sturm's type
- 1.9. An elementary conformal mapping
- 1.9.1. The principle of argument; Rouche's theorem; sequences of analytic functions
- CHAPTER II. DEFINITION OF ORTHOGONAL POLYNOMIALS; PRINCIPAL EXAMPLES
- 2.1. Orthogonality
- 2.2. Orthogonal Polynomials
- 2.3. Further Examples
- 2.4. The Classical Orthogonal Polynomials
- 2.5. A formula of Christoffel
- 2.6. A class of polynomials considered by S. Bernstein and G. Szegő
- 2.7. Stieltjes-Wigert polynomials
- 2.8. Distributions of Stieltjes type; an analogue of Legendre polynomials
- 2.8.1. Poisson-Charlier polynomials
- 2.8.2. Krawtchouk's polynomials
- 2.9. Further special cases
- CHAPTER III. GENERAL PROPERTIES OF ORTHOGONAL POLYNOMIALS
- CHAPTER IV. JACOBI POLYNOMIALS
- 4.1. Definition; notation; special cases
- page 58
- Theorem 4.1.
- 4.2. Differential equation
- Theorem 4.2.1
- Theorem 4.2.2.
- 4.21. Hypergeometric functions
- 4.22. Generalization
- 4.23. Second solution
- 4.24. Transformation of the differential equation
- 4.3. Rodrigues' formula; the orthonormal set
- 4.4. Generating function
- 4.5. Recurrence formula
- 4.6. Integral representations in general
- 4.61. Application; functions of the second kind
- 4.62. Further properties of the functions of the second kind
- 4.7. Ultraspherical polynomials
- 4.8. Integral representations for Legendre polynomials
- 4.81. Legendre functions of the second kind
- 4.82. Generalizations
- 4.9. Trigonometric representations
- 4.10. Further properties of Jacobi polynomials
- 4.1. Definition; notation; special cases
- CHAPTER V. LAGUERRE AND HERMITE POLYNOMIALS
- CHAPTER VI. ZEROS OF ORTHOGONAL POLYNOMIALS
- CHAPTER VII. INEQUALITIES
- CHAPTER VIII. ASYMPTOTIC PROPERTIES OF THE CLASSICAL POLYNOMIALS
- CHAPTER IX. EXPANSION PROBLEMS ASSOCIATED WITH THE CLASSICAL POLYNOMIALS
- CHAPTER X. REPRESENTATION OF POSITIVE FUNCTIONS
- CHAPTER XI. POLYNOMIALS ORTHOGONAL ON THE UNIT CIRCLE
- CHAPTER XII. ASYMPTOTIC PROPERTIES OF GENERAL ORTHOGONAL POLYNOMIALS
- CHAPTER XIII. EXPANSION PROBLEMS ASSOCIATED WITH GENERAL ORTHOGONAL POLYNOMIALS
- CHAPTER XIV. INTERPOLATION
- CHAPTER XV. MECHANICAL QUADRATURE
- CHAPTER XVI. POLYNOMIALS ORTHOGONAL ON AN ARBITRARY CURVE
- PROBLEMS AND EXERCISES
- FURTHER PROBLEMS AND EXERCISES
- APPENDIX
- LIST OF REFERENCES
- FURTHER REFERENCES
- INDEX
