generalized Mehler%E2%80%93Fock transformation

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1: 8.19 Generalized Exponential Integral

§8.19 Generalized Exponential Integral

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§8.19(ii) Graphics

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§8.19(ix) Inequalities

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§8.19(x) Integrals

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§8.19(xi) Further Generalizations

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2: 16.2 Definition and Analytic Properties

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§16.2(i) Generalized Hypergeometric Series

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Polynomials

… ►Note also that any partial sum of the generalized hypergeometric series can be represented as a generalized hypergeometric function via … ►

§16.2(v) Behavior with Respect to Parameters

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3: 8.21 Generalized Sine and Cosine Integrals

§8.21 Generalized Sine and Cosine Integrals

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§8.21(i) Definitions: General Values

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§8.21(iv) Interrelations

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§8.21(v) Special Values

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4: 1.16 Distributions

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\Lambda:\mathcal{D}(I)\rightarrow\mathbb{C}

is called a distribution, or generalized function, if it is a continuous linear functional on

\mathcal{D}(I)

, that is, it is a linear functional and for every

\phi_{n}\to\phi

\mathcal{D}(I)

, … ►More generally, for

\alpha\colon[a,b]\to[-\infty,\infty]

a nondecreasing function the corresponding Lebesgue–Stieltjes measure

\mu_{\alpha}

(see §1.4(v)) can be considered as a distribution: … ►More generally, if

\alpha(x)

is an infinitely differentiable function, then … ►Then its Fourier transform is … ►Friedman (1990) gives an overview of generalized functions and their relation to distributions. …

5: 35.8 Generalized Hypergeometric Functions of Matrix Argument

§35.8 Generalized Hypergeometric Functions of Matrix Argument

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Kummer Transformation

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Thomae Transformation

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§35.8(iv) General Properties

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Laplace Transform

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6: 19.2 Definitions

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§19.2(i) General Elliptic Integrals

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§19.2(iii) Bulirsch’s Integrals

►Bulirsch’s integrals are linear combinations of Legendre’s integrals that are chosen to facilitate computational application of Bartky’s transformation (Bartky (1938)). …

… ►These functions are also used in the Mehler–Fock integral transform (§14.20(vi)) for problems in potential and heat theory, and in elementary particle physics (Sneddon (1972, Chapter 7) and Braaksma and Meulenbeld (1967)). The conical functions and Mehler–Fock transform generalize to Jacobi functions and the Jacobi transform; see Koornwinder (1984a) and references therein. …

9: Bibliography O

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F. Oberhettinger and T. P. Higgins (1961) Tables of Lebedev, Mehler and Generalized Mehler Transforms. Mathematical Note Technical Report 246, Boeing Scientific Research Lab, Seattle.

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Referenced by:: §1.14(viii).
Encodings:: BibTeX

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F. W. J. Olver (1978) General connection formulae for Liouville-Green approximations in the complex plane. Philos. Trans. Roy. Soc. London Ser. A 289, pp. 501–548.

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External Links:: ISSN 0080-4614, FullText, MathReview (W. Wasow), ZentralBlatt
Referenced by:: §2.8(v), (9.13.18), §9.13(i), §9.13(i).
Encodings:: BibTeX

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F. W. J. Olver (1991a) Uniform, exponentially improved, asymptotic expansions for the generalized exponential integral. SIAM J. Math. Anal. 22 (5), pp. 1460–1474.

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External Links:: ISSN 0036-1410, Document, MathReview (Hans-Jürgen Glaeske), ZentralBlatt
Referenced by:: §2.11(iii), §2.11(iii), §8.11(i), §8.20(i).
Encodings:: BibTeX

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F. W. J. Olver (1994b) The Generalized Exponential Integral. In Approximation and Computation (West Lafayette, IN, 1993), R. V. M. Zahar (Ed.), International Series of Numerical Mathematics, Vol. 119, pp. 497–510.

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External Links:: MathReview (Richard B. Paris), ZentralBlatt
Referenced by:: §2.11(iii), §8.19(viii).
Encodings:: BibTeX

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C. Osácar, J. Palacián, and M. Palacios (1995) Numerical evaluation of the dilogarithm of complex argument. Celestial Mech. Dynam. Astronom. 62 (1), pp. 93–98.

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External Links:: ISSN 0923-2958, Document, MathReview (Bruce C. Berndt), ZentralBlatt
Referenced by:: §25.18(i).
Encodings:: BibTeX

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10: 14.20 Conical (or Mehler) Functions

§14.20 Conical (or Mehler) Functions

… ►Solutions are known as conical or Mehler functions. … ►Lastly, for the range

1<x<\infty

P^{-\mu}_{-\frac{1}{2}+i\tau}\left(x\right)

is a real-valued solution of (14.20.1); in terms of

Q^{\mu}_{-\frac{1}{2}\pm\mathrm{i}\tau}\left(x\right)

(which are complex-valued in general): … ►

§14.20(vi) Generalized Mehler–Fock Transformation

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14.20.19

\alpha=\mu/\tau,

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Symbols:: $\tau$ : real variable, $\mu$ : general order and $\alpha$
Permalink:: http://dlmf.nist.gov/14.20.E19
Encodings:: pMML, png, TeX
See also:: Annotations for §14.20(viii), §14.20 and Ch.14

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generalized Mehler%E2%80%93Fock transformation

1—10 of 466 matching pages

1: 8.19 Generalized Exponential Integral

§8.19 Generalized Exponential Integral

§8.19(ii) Graphics

§8.19(ix) Inequalities

§8.19(x) Integrals

§8.19(xi) Further Generalizations

2: 16.2 Definition and Analytic Properties

§16.2(i) Generalized Hypergeometric Series

Polynomials

§16.2(v) Behavior with Respect to Parameters

3: 8.21 Generalized Sine and Cosine Integrals

§8.21 Generalized Sine and Cosine Integrals

§8.21(i) Definitions: General Values

§8.21(iv) Interrelations

§8.21(v) Special Values

4: 1.16 Distributions

5: 35.8 Generalized Hypergeometric Functions of Matrix Argument

§35.8 Generalized Hypergeometric Functions of Matrix Argument

Kummer Transformation

Thomae Transformation

§35.8(iv) General Properties

Laplace Transform

6: 19.2 Definitions

§19.2(i) General Elliptic Integrals

§19.2(iii) Bulirsch’s Integrals

7: 1.14 Integral Transforms

§1.14 Integral Transforms

§1.14(i) Fourier Transform

§1.14(iii) Laplace Transform

Fourier Transform

Laplace Transform

8: 14.31 Other Applications

§14.31(ii) Conical Functions

9: Bibliography O

10: 14.20 Conical (or Mehler) Functions

§14.20 Conical (or Mehler) Functions

§14.20(vi) Generalized Mehler–Fock Transformation