Stieltjes%20electrostatic%20interpretation

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21: Wolter Groenevelt

… ►As of September 20, 2022, Groenevelt performed a complete analysis and acted as main consultant for the update of the source citation and proof metadata for every formula in Chapter 18 Orthogonal Polynomials. …

22: 33.24 Tables

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Abramowitz and Stegun (1964, Chapter 14) tabulates $F_{0}\left(\eta,\rho\right)$ , $G_{0}\left(\eta,\rho\right)$ , $F_{0}'\left(\eta,\rho\right)$ , and $G_{0}'\left(\eta,\rho\right)$ for $\eta=0.5(.5)20$ and $\rho=1(1)20$ , 5S; $C_{0}\left(\eta\right)$ for $\eta=0(.05)3$ , 6S.

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23: 25.2 Definition and Expansions

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25.2.4

\zeta\left(s\right)=\frac{1}{s-1}+\sum_{n=0}^{\infty}\frac{(-1)^{n}}{n!}\gamma% _{n}(s-1)^{n},

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Symbols:: $\zeta\left(\NVar{s}\right)$ : Riemann zeta function, $\gamma_{\NVar{n}}$ : Stieltjes constants, $!$ : factorial (as in $n!$ ), $\Re$ : real part, $n$ : nonnegative integer and $s$ : complex variable
Keywords:: infinite series, Laurent series
Sources:: Hardy (1912, p. 216); mistakenly missing factor of $(-1)^{n}/n!$ ; Ivić (1985, (1.11), p. 4)
A&S Ref:: 23.2.5 (with unnecessary constraint removed)
Referenced by:: Erratum (V1.0.17) for Equation (25.2.4), Erratum (V1.0.23) for Subsection 25.2(ii) Other Infinite Series
Permalink:: http://dlmf.nist.gov/25.2.E4
Encodings:: pMML, png, TeX
Clarification (effective with 1.0.17):: Originally this equation had the constraint $\Re s>0$ . This constraint is unnecessary because, as stated after (25.2.1), $\zeta\left(s\right)$ is meromorphic with a simple pole at $s=1$ .
Suggested 2017-12-05 by John Harper
See also:: Annotations for §25.2(ii), §25.2 and Ch.25

►where the Stieltjes constants

\gamma_{n}

are defined via ►

25.2.5

\gamma_{n}=\lim_{m\to\infty}\left(\sum_{k=1}^{m}\frac{(\ln k)^{n}}{k}-\frac{(% \ln m)^{n+1}}{n+1}\right).

ⓘ

Defines:: $\gamma_{\NVar{n}}$ : Stieltjes constants
Symbols:: $\ln\NVar{z}$ : principal branch of logarithm function, $k$ : nonnegative integer, $m$ : nonnegative integer and $n$ : nonnegative integer
Keywords:: definition, Stieltjes constants
Sources:: Hardy (1912, p. 215); Ivić (1985, (1.12), p. 4)
Referenced by:: §25.2(ii), §25.6(ii), Erratum (V1.0.23) for Subsection 25.2(ii) Other Infinite Series
Permalink:: http://dlmf.nist.gov/25.2.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §25.2(ii), §25.2 and Ch.25

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24: 27.15 Chinese Remainder Theorem

… ►Their product

m

has 20 digits, twice the number of digits in the data. …These numbers, in turn, are combined by the Chinese remainder theorem to obtain the final result

\pmod{m}

, which is correct to 20 digits. …

25: William P. Reinhardt

… ►

20 Theta Functions

… ►In November 2015, Reinhardt was named Senior Associate Editor of the DLMF and Associate Editor for Chapters 20, 22, and 23.

26: 18.29 Asymptotic Approximations for $q$ -Hahn and Askey–Wilson Classes

… ►

18.29.2

Q_{n}(z;a,b,c,d\mid q)\sim\frac{z^{n}\left(az^{-1},bz^{-1},cz^{-1},dz^{-1};q% \right)_{\infty}}{\left(z^{-2},bc,bd,cd;q\right)_{\infty}},

n\to\infty

;

z, a, b, c, d, q

fixed.

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Symbols:: $\sim$ : asymptotic equality, $\left(\NVar{a_{1},a_{2},\dots,a_{r}};\NVar{q}\right)_{\NVar{n}}$ : multiple $q$ -Pochhammer symbol, $z$ : complex variable, $q$ : real variable and $n$ : nonnegative integer
Permalink:: http://dlmf.nist.gov/18.29.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §18.29 and Ch.18

►For a uniform asymptotic expansion of the Stieltjes–Wigert polynomials, see Wang and Wong (2006). …

27: Bibliography B

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G. Backenstoss (1970) Pionic atoms. Annual Review of Nuclear and Particle Science 20, pp. 467–508.

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External Links:: Document
Referenced by:: §33.22(iv).
Encodings:: BibTeX

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A. Bañuelos and R. A. Depine (1980) A program for computing the Riemann zeta function for complex argument. Comput. Phys. Comm. 20 (3), pp. 441–445.

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Notes:: Double-precision Fortran, maximum accuracy 10S.
External Links:: Document, Code, ZentralBlatt
Referenced by:: 1st item.
Encodings:: BibTeX

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K. L. Bell and N. S. Scott (1980) Coulomb functions (negative energies). Comput. Phys. Comm. 20 (3), pp. 447–458.

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Notes:: Double-precision Fortran code.
External Links:: Document, Code
Referenced by:: 1st item, 4th item.
Encodings:: BibTeX

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W. G. Bickley (1935) Some solutions of the problem of forced convection. Philos. Mag. Series 7 20, pp. 322–343.

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External Links:: Document, ZentralBlatt
Referenced by:: §10.73(iv).
Encodings:: BibTeX

… ►

W. G. C. Boyd (1990b) Stieltjes transforms and the Stokes phenomenon. Proc. Roy. Soc. London Ser. A 429, pp. 227–246.

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External Links:: ISSN 0962-8444, FullText, MathReview, ZentralBlatt
Referenced by:: §2.11(v).
Encodings:: BibTeX

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28: 1.18 Linear Second Order Differential Operators and Eigenfunction Expansions

… ►For a Lebesgue–Stieltjes measure

\,\mathrm{d}\alpha

X

let

L^{2}\left(X,\,\mathrm{d}\alpha\right)

be the space of all Lebesgue–Stieltjes measurable complex-valued functions on

X

which are square integrable with respect to

\,\mathrm{d}\alpha

, ►

1.18.11

\int_{a}^{b}{\left|f(x)\right|}^{2}\,\mathrm{d}\alpha(x)<\infty.

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Symbols:: $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral and $\left|\NVar{x}\right|$ : absolute value of $\NVar{x}$
Permalink:: http://dlmf.nist.gov/1.18.E11
Encodings:: pMML, png, TeX
See also:: Annotations for §1.18(ii), §1.18 and Ch.1

… ►

1.18.13

c_{n}=\left\langle f,\phi_{n}\right\rangle=\int_{a}^{b}f(x)\overline{\phi_{n}(% x)}\,\mathrm{d}x,

f\in L^{2}\left(X\right)

ⓘ

Symbols:: $L^{2}\left(\NVar{X},\NVar{\,\mathrm{d}x}\right)$ : Lebesgue–Stieltjes measurable, square integrable, complex-valued functions, $\overline{\NVar{z}}$ : complex conjugate, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\in$ : element of, $\left\langle\NVar{f},\NVar{g}\right\rangle$ : inner product over functions, $\int$ : integral and $n$ : nonnegative integer
Referenced by:: §1.18(v), §1.18(vi), §1.18(ii)
Permalink:: http://dlmf.nist.gov/1.18.E13
Encodings:: pMML, png, TeX
See also:: Annotations for §1.18(ii), §1.18 and Ch.1

►

1.18.14

\int_{a}^{b}{\left|f(x)\right|}^{2}\,\mathrm{d}x=\sum_{n=0}^{\infty}{\left|c_{% n}\right|}^{2},

f\in L^{2}\left(X\right)

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Symbols:: $L^{2}\left(\NVar{X},\NVar{\,\mathrm{d}x}\right)$ : Lebesgue–Stieltjes measurable, square integrable, complex-valued functions, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\in$ : element of, $\int$ : integral, $n$ : nonnegative integer and $\left|\NVar{x}\right|$ : absolute value of $\NVar{x}$
Permalink:: http://dlmf.nist.gov/1.18.E14
Encodings:: pMML, png, TeX
See also:: Annotations for §1.18(ii), §1.18 and Ch.1

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1.18.64

f(x)=\int_{\boldsymbol{\sigma}_{c}}\widehat{f}(\lambda)\phi_{\lambda}(x)\,% \mathrm{d}\lambda+\sum_{\boldsymbol{\sigma}_{p}}\widehat{f}(\lambda_{n})\phi_{% \lambda_{n}}(x),

f(x)\in C(X)\cap L^{2}\left(X\right)

ⓘ

Symbols:: $L^{2}\left(\NVar{X},\NVar{\,\mathrm{d}x}\right)$ : Lebesgue–Stieltjes measurable, square integrable, complex-valued functions, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\in$ : element of, $\int$ : integral, $\cap$ : intersection, $C(\NVar{I})$ or $C(\NVar{a,b})$ : continuous on an interval $I$ or $(a,b)$ and $n$ : nonnegative integer
Permalink:: http://dlmf.nist.gov/1.18.E64
Encodings:: pMML, png, TeX
See also:: Annotations for §1.18(viii), §1.18 and Ch.1

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29: 6.19 Tables

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Zhang and Jin (1996, pp. 652, 689) includes $\operatorname{Si}\left(x\right)$ , $\operatorname{Ci}\left(x\right)$ , $x=0(.5)20(2)30$ , 8D; $\operatorname{Ei}\left(x\right)$ , $E_{1}\left(x\right)$ , $x=[0,100]$ , 8S.

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Abramowitz and Stegun (1964, Chapter 5) includes the real and imaginary parts of $ze^{z}E_{1}\left(z\right)$ , $x=-19(1)20$ , $y=0(1)20$ , 6D; $e^{z}E_{1}\left(z\right)$ , $x=-4(.5)-2$ , $y=0(.2)1$ , 6D; $E_{1}\left(z\right)+\ln z$ , $x=-2(.5)2.5$ , $y=0(.2)1$ , 6D.

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Zhang and Jin (1996, pp. 690–692) includes the real and imaginary parts of $E_{1}\left(z\right)$ , $\pm x=0.5,1,3,5,10,15,20,50,100$ , $y=0(.5)1(1)5(5)30,50,100$ , 8S.

30: Peter L. Walker

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