13 Confluent Hypergeometric Functions Applications 13.27 Mathematical Applications 13.29 Methods of Computation

§13.28 Physical Applications

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Keywords:: Kummer functions, applications, physical
Permalink:: http://dlmf.nist.gov/13.28
See also:: Annotations for Ch.13

§13.28(i) Exact Solutions of the Wave Equation

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Keywords:: Whittaker functions, confluent hypergeometric functions, coordinate systems, paraboloidal, paraboloidal coordinates, quantum mechanics, wave equation
Permalink:: http://dlmf.nist.gov/13.28.i
See also:: Annotations for §13.28 and Ch.13

The reduced wave equation $\nabla^{2}w=k^{2}w$ in paraboloidal coordinates, $x=2\sqrt{\xi\eta}\cos\phi$ , $y=2\sqrt{\xi\eta}\sin\phi$ , $z=\xi-\eta$ , can be solved via separation of variables $w=f_{1}(\xi)f_{2}(\eta)e^{\mathrm{i}p\phi}$ , where

13.28.1	$\displaystyle f_{1}(\xi)$	$\displaystyle=\xi^{-\frac{1}{2}}V_{\kappa,\frac{1}{2}p}^{(1)}(2\mathrm{i}k\xi)$ ,
13.28.1	$\displaystyle f_{2}(\eta)$	$\displaystyle=\eta^{-\frac{1}{2}}V_{\kappa,\frac{1}{2}p}^{(2)}(-2\mathrm{i}k\eta)$ ,
ⓘ Symbols: $\mathrm{i}$ : imaginary unit and $k$ : wavenumber Permalink: http://dlmf.nist.gov/13.28.E1 Encodings: TeX, TeX, pMML, pMML, png, png See also: Annotations for §13.28(i), §13.28 and Ch.13

and $V^{(j)}_{\kappa,\mu}(z)$ , $j=1,2$ , denotes any pair of solutions of Whittaker’s equation (13.14.1). See Hochstadt (1971, Chapter 7).

For potentials in quantum mechanics that are solvable in terms of confluent hypergeometric functions see Negro et al. (2000).

§13.28(ii) Coulomb Functions

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Keywords:: Coulomb functions, Whittaker functions, applications, physical
Permalink:: http://dlmf.nist.gov/13.28.ii
See also:: Annotations for §13.28 and Ch.13

See Chapter 33.

§13.28(iii) Other Applications

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Keywords:: coherent states, confluent hypergeometric functions, cosmology, generalized, many-body systems, tomography
Permalink:: http://dlmf.nist.gov/13.28.iii
See also:: Annotations for §13.28 and Ch.13

For dynamics of many-body systems see Meden and Schönhammer (1992); for tomography see D’Ariano et al. (1994); for generalized coherent states see Barut and Girardello (1971); for relativistic cosmology see Crisóstomo et al. (2004).

13.27 Mathematical Applications 13.29 Methods of Computation

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§13.28 Physical Applications

Contents

§13.28(i) Exact Solutions of the Wave Equation

§13.28(ii) Coulomb Functions

§13.28(iii) Other Applications

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