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21: 7.2 Definitions

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7.2.1

\operatorname{erf}z=\frac{2}{\sqrt{\pi}}\int_{0}^{z}e^{-t^{2}}\,\mathrm{d}t,

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Defines:: $\operatorname{erf}\NVar{z}$ : error function
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral and $z$ : complex variable
A&S Ref:: 7.1.1
Referenced by:: §7.5, §7.6(ii)
Permalink:: http://dlmf.nist.gov/7.2.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §7.2(i), §7.2 and Ch.7

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7.2.2

\operatorname{erfc}z=\frac{2}{\sqrt{\pi}}\int_{z}^{\infty}e^{-t^{2}}\,\mathrm{% d}t=1-\operatorname{erf}z,

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Defines:: $\operatorname{erfc}\NVar{z}$ : complementary error function
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\operatorname{erf}\NVar{z}$ : error function, $\mathrm{e}$ : base of natural logarithm, $\int$ : integral and $z$ : complex variable
A&S Ref:: 7.1.2
Referenced by:: §7.5, §7.7(i)
Permalink:: http://dlmf.nist.gov/7.2.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §7.2(i), §7.2 and Ch.7

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7.2.6

\mathcal{F}\left(z\right)=\int_{z}^{\infty}e^{\tfrac{1}{2}\pi\mathrm{i}t^{2}}% \,\mathrm{d}t,

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Defines:: $\mathcal{F}\left(\NVar{z}\right)$ : Fresnel integral
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $\int$ : integral and $z$ : complex variable
Referenced by:: §7.5, §7.7(ii)
Permalink:: http://dlmf.nist.gov/7.2.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §7.2(iii), §7.2 and Ch.7

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7.2.7

C\left(z\right)=\int_{0}^{z}\cos\left(\tfrac{1}{2}\pi t^{2}\right)\,\mathrm{d}t,

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Defines:: $C\left(\NVar{z}\right)$ : Fresnel integral
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\cos\NVar{z}$ : cosine function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral and $z$ : complex variable
A&S Ref:: 7.3.1
Referenced by:: §7.5, §7.6(i)
Permalink:: http://dlmf.nist.gov/7.2.E7
Encodings:: pMML, png, TeX
See also:: Annotations for §7.2(iii), §7.2 and Ch.7

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7.2.8

S\left(z\right)=\int_{0}^{z}\sin\left(\tfrac{1}{2}\pi t^{2}\right)\,\mathrm{d}t,

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Defines:: $S\left(\NVar{z}\right)$ : Fresnel integral
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral, $\sin\NVar{z}$ : sine function and $z$ : complex variable
A&S Ref:: 7.3.2
Referenced by:: §7.5, §7.6(i)
Permalink:: http://dlmf.nist.gov/7.2.E8
Encodings:: pMML, png, TeX
See also:: Annotations for §7.2(iii), §7.2 and Ch.7

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22: 7.6 Series Expansions

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7.6.1

\operatorname{erf}z=\frac{2}{\sqrt{\pi}}\sum_{n=0}^{\infty}\frac{(-1)^{n}z^{2n% +1}}{n!(2n+1)},

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Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erf}\NVar{z}$ : error function, $!$ : factorial (as in $n!$ ), $z$ : complex variable and $n$ : nonnegative integer
A&S Ref:: 7.1.5
Referenced by:: §7.6(i)
Permalink:: http://dlmf.nist.gov/7.6.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §7.6(i), §7.6 and Ch.7

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7.6.2

\operatorname{erf}z=\frac{2}{\sqrt{\pi}}e^{-z^{2}}\sum_{n=0}^{\infty}\frac{2^{% n}z^{2n+1}}{1\cdot 3\cdots(2n+1)},

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Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erf}\NVar{z}$ : error function, $\mathrm{e}$ : base of natural logarithm, $z$ : complex variable and $n$ : nonnegative integer
A&S Ref:: 7.1.6
Referenced by:: §7.6(i), §7.6(ii)
Permalink:: http://dlmf.nist.gov/7.6.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §7.6(i), §7.6 and Ch.7

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7.6.4

C\left(z\right)=\sum_{n=0}^{\infty}\frac{(-1)^{n}(\frac{1}{2}\pi)^{2n}}{(2n)!(% 4n+1)}z^{4n+1},

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Symbols:: $C\left(\NVar{z}\right)$ : Fresnel integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $!$ : factorial (as in $n!$ ), $z$ : complex variable and $n$ : nonnegative integer
A&S Ref:: 7.3.11
Referenced by:: §7.6(i)
Permalink:: http://dlmf.nist.gov/7.6.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §7.6(i), §7.6 and Ch.7

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7.6.6

S\left(z\right)=\sum_{n=0}^{\infty}\frac{(-1)^{n}(\frac{1}{2}\pi)^{2n+1}}{(2n+% 1)!(4n+3)}z^{4n+3},

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Symbols:: $S\left(\NVar{z}\right)$ : Fresnel integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $!$ : factorial (as in $n!$ ), $z$ : complex variable and $n$ : nonnegative integer
A&S Ref:: 7.3.13
Referenced by:: §7.6(i)
Permalink:: http://dlmf.nist.gov/7.6.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §7.6(i), §7.6 and Ch.7

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7.6.10

C\left(z\right)=z\sum_{n=0}^{\infty}\mathsf{j}_{2n}\left(\tfrac{1}{2}\pi z^{2}% \right),

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Symbols:: $C\left(\NVar{z}\right)$ : Fresnel integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathsf{j}_{\NVar{n}}\left(\NVar{z}\right)$ : spherical Bessel function of the first kind, $z$ : complex variable and $n$ : nonnegative integer
Referenced by:: §7.6(ii)
Permalink:: http://dlmf.nist.gov/7.6.E10
Encodings:: pMML, png, TeX
See also:: Annotations for §7.6(ii), §7.6 and Ch.7

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23: 25.4 Reflection Formulas

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25.4.1

\zeta\left(1-s\right)=2(2\pi)^{-s}\cos\left(\tfrac{1}{2}\pi s\right)\Gamma% \left(s\right)\zeta\left(s\right),

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Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\zeta\left(\NVar{s}\right)$ : Riemann zeta function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\cos\NVar{z}$ : cosine function and $s$ : complex variable
Keywords:: reflection formula
Source:: Apostol (1976, (12), p. 259)
Referenced by:: §25.10(i), §5.17
Permalink:: http://dlmf.nist.gov/25.4.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §25.4 and Ch.25

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25.4.2

\zeta\left(s\right)=2(2\pi)^{s-1}\sin\left(\tfrac{1}{2}\pi s\right)\Gamma\left% (1-s\right)\zeta\left(1-s\right).

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Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\zeta\left(\NVar{s}\right)$ : Riemann zeta function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\sin\NVar{z}$ : sine function and $s$ : complex variable
Keywords:: reflection formula
Source:: Apostol (1976, (13), p. 259)
A&S Ref:: 23.2.6
Permalink:: http://dlmf.nist.gov/25.4.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §25.4 and Ch.25

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25.4.4

\xi\left(s\right)=\tfrac{1}{2}s(s-1)\Gamma\left(\tfrac{1}{2}s\right)\pi^{-s/2}% \zeta\left(s\right).

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Defines:: $\xi\left(\NVar{s}\right)$ : Riemann’s $\xi$ -function
Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\zeta\left(\NVar{s}\right)$ : Riemann zeta function, $\pi$ : the ratio of the circumference of a circle to its diameter and $s$ : complex variable
Keywords:: definition
Source:: Apostol (1976, p. 260)
Permalink:: http://dlmf.nist.gov/25.4.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §25.4 and Ch.25

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25.4.5

(-1)^{k}{\zeta}^{(k)}\left(1-s\right)=\frac{2}{(2\pi)^{s}}\sum_{m=0}^{k}\sum_{% r=0}^{m}\genfrac{(}{)}{0.0pt}{}{k}{m}\genfrac{(}{)}{0.0pt}{}{m}{r}\left(\Re% \left(c^{k-m}\right)\cos\left(\tfrac{1}{2}\pi s\right)+\Im\left(c^{k-m}\right)% \sin\left(\tfrac{1}{2}\pi s\right)\right){\Gamma}^{(r)}\left(s\right){\zeta}^{% (m-r)}\left(s\right),

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Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\zeta\left(\NVar{s}\right)$ : Riemann zeta function, $\genfrac{(}{)}{0.0pt}{}{\NVar{m}}{\NVar{n}}$ : binomial coefficient, $\pi$ : the ratio of the circumference of a circle to its diameter, $\cos\NVar{z}$ : cosine function, $\Im$ : imaginary part, $\Re$ : real part, $\sin\NVar{z}$ : sine function, $k$ : nonnegative integer, $m$ : nonnegative integer, $s$ : complex variable and $c$
Keywords:: derivative
Source:: Apostol (1985a, (6), p. 224)
Permalink:: http://dlmf.nist.gov/25.4.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §25.4 and Ch.25

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25.4.6

c\equiv-\ln\left(2\pi\right)-\tfrac{1}{2}\pi\mathrm{i}.

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Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\equiv$ : equals by definition, $\mathrm{i}$ : imaginary unit, $\ln\NVar{z}$ : principal branch of logarithm function and $c$
Keywords:: definition
Source:: Apostol (1985a, p. 223)
Referenced by:: §25.6(ii)
Permalink:: http://dlmf.nist.gov/25.4.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §25.4 and Ch.25

24: 7.5 Interrelations

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7.5.1

F\left(z\right)=\tfrac{1}{2}i\sqrt{\pi}\left(e^{-z^{2}}-w\left(z\right)\right)% =-\tfrac{1}{2}i\sqrt{\pi}e^{-z^{2}}\operatorname{erf}\left(iz\right).

ⓘ

Symbols:: $F\left(\NVar{z}\right)$ : Dawson’s integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erf}\NVar{z}$ : error function, $w\left(\NVar{z}\right)$ : Faddeeva (or Faddeyeva) function, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit and $z$ : complex variable
Referenced by:: §7.5
Permalink:: http://dlmf.nist.gov/7.5.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §7.5 and Ch.7

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7.5.3

C\left(z\right)=\tfrac{1}{2}+\mathrm{f}\left(z\right)\sin\left(\tfrac{1}{2}\pi z% ^{2}\right)-\mathrm{g}\left(z\right)\cos\left(\tfrac{1}{2}\pi z^{2}\right),

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Symbols:: $\mathrm{f}\left(\NVar{z}\right)$ : auxiliary function for Fresnel integrals, $\mathrm{g}\left(\NVar{z}\right)$ : auxiliary function for Fresnel integrals, $C\left(\NVar{z}\right)$ : Fresnel integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $\cos\NVar{z}$ : cosine function, $\sin\NVar{z}$ : sine function and $z$ : complex variable
A&S Ref:: 7.3.9
Referenced by:: §7.12(ii), §7.5
Permalink:: http://dlmf.nist.gov/7.5.E3
Encodings:: pMML, png, TeX
See also:: Annotations for §7.5 and Ch.7

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7.5.5

e^{-\frac{1}{2}\pi iz^{2}}\mathcal{F}\left(z\right)=\mathrm{g}\left(z\right)+i% \mathrm{f}\left(z\right).

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Symbols:: $\mathrm{f}\left(\NVar{z}\right)$ : auxiliary function for Fresnel integrals, $\mathrm{g}\left(\NVar{z}\right)$ : auxiliary function for Fresnel integrals, $\mathcal{F}\left(\NVar{z}\right)$ : Fresnel integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit and $z$ : complex variable
Referenced by:: §7.13(iv), §7.5, §7.7(ii)
Permalink:: http://dlmf.nist.gov/7.5.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §7.5 and Ch.7

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7.5.7

\zeta=\tfrac{1}{2}\sqrt{\pi}(1\mp i)z,

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Defines:: $\zeta$ : change of variable (locally)
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{i}$ : imaginary unit and $z$ : complex variable
Referenced by:: §7.12(ii), §7.5
Permalink:: http://dlmf.nist.gov/7.5.E7
Encodings:: pMML, png, TeX
See also:: Annotations for §7.5 and Ch.7

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7.5.13

G\left(x\right)=\sqrt{\pi}F\left(x\right)-\tfrac{1}{2}e^{-x^{2}}\operatorname{% Ei}\left(x^{2}\right),

x>0

.

ⓘ

Symbols:: $F\left(\NVar{z}\right)$ : Dawson’s integral, $G\left(\NVar{z}\right)$ : Goodwin–Staton integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $\operatorname{Ei}\left(\NVar{x}\right)$ : exponential integral and $x$ : real variable
Referenced by:: §7.5
Permalink:: http://dlmf.nist.gov/7.5.E13
Encodings:: pMML, png, TeX
See also:: Annotations for §7.5 and Ch.7

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25: 11.4 Basic Properties

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11.4.5

\mathbf{H}_{\frac{1}{2}}\left(z\right)=\left(\frac{2}{\pi z}\right)^{\frac{1}{% 2}}(1-\cos z),

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Symbols:: $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\cos\NVar{z}$ : cosine function and $z$ : complex variable
A&S Ref:: 12.1.16
Referenced by:: §11.4(i)
Permalink:: http://dlmf.nist.gov/11.4.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §11.4(i), §11.4 and Ch.11

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11.4.6

\mathbf{H}_{-\frac{1}{2}}\left(z\right)=\left(\frac{2}{\pi z}\right)^{\frac{1}% {2}}\sin z,

ⓘ

Symbols:: $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\sin\NVar{z}$ : sine function and $z$ : complex variable
Permalink:: http://dlmf.nist.gov/11.4.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §11.4(i), §11.4 and Ch.11

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11.4.7

\mathbf{L}_{\frac{1}{2}}\left(z\right)=\left(\frac{2}{\pi z}\right)^{\frac{1}{% 2}}(\cosh z-1),

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Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\cosh\NVar{z}$ : hyperbolic cosine function, $\mathbf{L}_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Struve function and $z$ : complex variable
Permalink:: http://dlmf.nist.gov/11.4.E7
Encodings:: pMML, png, TeX
See also:: Annotations for §11.4(i), §11.4 and Ch.11

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11.4.8

\mathbf{L}_{-\frac{1}{2}}\left(z\right)=\left(\frac{2}{\pi z}\right)^{\frac{1}% {2}}\sinh z,

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Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\sinh\NVar{z}$ : hyperbolic sine function, $\mathbf{L}_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Struve function and $z$ : complex variable
Permalink:: http://dlmf.nist.gov/11.4.E8
Encodings:: pMML, png, TeX
See also:: Annotations for §11.4(i), §11.4 and Ch.11

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11.4.10

\mathbf{H}_{-\frac{3}{2}}\left(z\right)=\left(\frac{2}{\pi z}\right)^{\frac{1}% {2}}\left(\cos z-\frac{\sin z}{z}\right),

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Symbols:: $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\cos\NVar{z}$ : cosine function, $\sin\NVar{z}$ : sine function and $z$ : complex variable
Permalink:: http://dlmf.nist.gov/11.4.E10
Encodings:: pMML, png, TeX
See also:: Annotations for §11.4(i), §11.4 and Ch.11

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26: 22.11 Fourier and Hyperbolic Series

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22.11.1

\operatorname{sn}\left(z,k\right)=\frac{2\pi}{Kk}\sum_{n=0}^{\infty}\frac{q^{n% +\frac{1}{2}}\sin\left((2n+1)\zeta\right)}{1-q^{2n+1}},

ⓘ

Symbols:: $\operatorname{sn}\left(\NVar{z},\NVar{k}\right)$ : Jacobian elliptic function, $\pi$ : the ratio of the circumference of a circle to its diameter, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $q$ : nome, $\sin\NVar{z}$ : sine function, $z$ : complex, $k$ : modulus and $\zeta$ : change of variable
A&S Ref:: 16.23.1
Permalink:: http://dlmf.nist.gov/22.11.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §22.11 and Ch.22

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22.11.2

\operatorname{cn}\left(z,k\right)=\frac{2\pi}{Kk}\sum_{n=0}^{\infty}\frac{q^{n% +\frac{1}{2}}\cos\left((2n+1)\zeta\right)}{1+q^{2n+1}},

ⓘ

Symbols:: $\operatorname{cn}\left(\NVar{z},\NVar{k}\right)$ : Jacobian elliptic function, $\pi$ : the ratio of the circumference of a circle to its diameter, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $\cos\NVar{z}$ : cosine function, $q$ : nome, $z$ : complex, $k$ : modulus and $\zeta$ : change of variable
A&S Ref:: 16.23.2
Permalink:: http://dlmf.nist.gov/22.11.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §22.11 and Ch.22

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22.11.3

\operatorname{dn}\left(z,k\right)=\frac{\pi}{2K}+\frac{2\pi}{K}\sum_{n=1}^{% \infty}\frac{q^{n}\cos\left(2n\zeta\right)}{1+q^{2n}}.

ⓘ

Symbols:: $\operatorname{dn}\left(\NVar{z},\NVar{k}\right)$ : Jacobian elliptic function, $\pi$ : the ratio of the circumference of a circle to its diameter, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $\cos\NVar{z}$ : cosine function, $q$ : nome, $z$ : complex, $k$ : modulus and $\zeta$ : change of variable
A&S Ref:: 16.23.3
Permalink:: http://dlmf.nist.gov/22.11.E3
Encodings:: pMML, png, TeX
See also:: Annotations for §22.11 and Ch.22

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22.11.4

\operatorname{cd}\left(z,k\right)=\frac{2\pi}{Kk}\sum_{n=0}^{\infty}\frac{(-1)% ^{n}q^{n+\frac{1}{2}}\cos\left((2n+1)\zeta\right)}{1-q^{2n+1}},

ⓘ

Symbols:: $\operatorname{cd}\left(\NVar{z},\NVar{k}\right)$ : Jacobian elliptic function, $\pi$ : the ratio of the circumference of a circle to its diameter, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $\cos\NVar{z}$ : cosine function, $q$ : nome, $z$ : complex, $k$ : modulus and $\zeta$ : change of variable
A&S Ref:: 16.23.4
Permalink:: http://dlmf.nist.gov/22.11.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §22.11 and Ch.22

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22.11.5

\operatorname{sd}\left(z,k\right)=\frac{2\pi}{Kkk^{\prime}}\sum_{n=0}^{\infty}% \frac{(-1)^{n}q^{n+\frac{1}{2}}\sin\left((2n+1)\zeta\right)}{1+q^{2n+1}},

ⓘ

Symbols:: $\operatorname{sd}\left(\NVar{z},\NVar{k}\right)$ : Jacobian elliptic function, $\pi$ : the ratio of the circumference of a circle to its diameter, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $q$ : nome, $\sin\NVar{z}$ : sine function, $z$ : complex, $k$ : modulus, $k^{\prime}$ : complementary modulus and $\zeta$ : change of variable
A&S Ref:: 16.23.5
Permalink:: http://dlmf.nist.gov/22.11.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §22.11 and Ch.22

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27: 10.34 Analytic Continuation

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10.34.1

I_{\nu}\left(ze^{m\pi i}\right)=e^{m\nu\pi i}I_{\nu}\left(z\right),

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $I_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the first kind, $m$ : integer, $z$ : complex variable and $\nu$ : complex parameter
A&S Ref:: 9.6.30
Referenced by:: §10.30(ii), §10.34, §10.47(v)
Permalink:: http://dlmf.nist.gov/10.34.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §10.34 and Ch.10

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10.34.2

K_{\nu}\left(ze^{m\pi i}\right)=e^{-m\nu\pi i}K_{\nu}\left(z\right)-\pi i\sin% \left(m\nu\pi\right)\csc\left(\nu\pi\right)I_{\nu}\left(z\right).

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\csc\NVar{z}$ : cosecant function, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $I_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the first kind, $K_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the second kind, $\sin\NVar{z}$ : sine function, $m$ : integer, $z$ : complex variable and $\nu$ : complex parameter
A&S Ref:: 9.6.31
Referenced by:: §10.27, §10.34, §10.34
Permalink:: http://dlmf.nist.gov/10.34.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §10.34 and Ch.10

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10.34.4

K_{\nu}\left(ze^{m\pi i}\right)=\csc\left(\nu\pi\right)\left(\pm\sin\left(m\nu% \pi\right)K_{\nu}\left(ze^{\pm\pi i}\right)\mp\sin\left((m\mp 1)\nu\pi\right)K% _{\nu}\left(z\right)\right).

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\csc\NVar{z}$ : cosecant function, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $K_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the second kind, $\sin\NVar{z}$ : sine function, $m$ : integer, $z$ : complex variable and $\nu$ : complex parameter
Referenced by:: §10.34, §10.40(i)
Permalink:: http://dlmf.nist.gov/10.34.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §10.34 and Ch.10

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10.34.5

K_{n}\left(ze^{m\pi i}\right)=(-1)^{mn}K_{n}\left(z\right)+(-1)^{n(m-1)-1}m\pi iI% _{n}\left(z\right),

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $I_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the first kind, $K_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the second kind, $m$ : integer, $n$ : integer and $z$ : complex variable
Permalink:: http://dlmf.nist.gov/10.34.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §10.34 and Ch.10

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10.34.6

K_{n}\left(ze^{m\pi i}\right)=\pm(-1)^{n(m-1)}mK_{n}\left(ze^{\pm\pi i}\right)% \mp(-1)^{nm}(m\mp 1)K_{n}\left(z\right).

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $K_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the second kind, $m$ : integer, $n$ : integer and $z$ : complex variable
Referenced by:: §10.40(i)
Permalink:: http://dlmf.nist.gov/10.34.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §10.34 and Ch.10

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28: 11.7 Integrals and Sums

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11.7.2

\int z^{-\nu}\mathbf{H}_{\nu+1}\left(z\right)\,\mathrm{d}z=-z^{-\nu}\mathbf{H}% _{\nu}\left(z\right)+\frac{2^{-\nu}z}{\sqrt{\pi}\Gamma\left(\nu+\tfrac{3}{2}% \right)},

ⓘ

Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral, $z$ : complex variable and $\nu$ : real or complex order
A&S Ref:: 12.1.24
Permalink:: http://dlmf.nist.gov/11.7.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §11.7(i), §11.7 and Ch.11

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11.7.4

\int z^{-\nu}\mathbf{L}_{\nu+1}\left(z\right)\,\mathrm{d}z=z^{-\nu}\mathbf{L}_% {\nu}\left(z\right)-\frac{2^{-\nu}z}{\sqrt{\pi}\Gamma\left(\nu+\tfrac{3}{2}% \right)}.

ⓘ

Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral, $\mathbf{L}_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Struve function, $z$ : complex variable and $\nu$ : real or complex order
Permalink:: http://dlmf.nist.gov/11.7.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §11.7(i), §11.7 and Ch.11

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11.7.6

f_{\nu+1}(z)=(2\nu+1)f_{\nu}(z)-z^{\nu+1}\mathbf{H}_{\nu}\left(z\right)+\frac{% (\tfrac{1}{2}z^{2})^{\nu+1}}{(\nu+1)\sqrt{\pi}\Gamma\left(\nu+\tfrac{3}{2}% \right)},

\Re\nu>-1

.

ⓘ

Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\Re$ : real part, $z$ : complex variable and $\nu$ : real or complex order
A&S Ref:: 12.1.28 (The condition on $\nu$ has been corrected.)
Permalink:: http://dlmf.nist.gov/11.7.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §11.7(i), §11.7 and Ch.11

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11.7.9

\int_{0}^{\infty}\mathbf{H}_{\nu}\left(t\right)\,\mathrm{d}t=-\cot\left(\tfrac% {1}{2}\pi\nu\right),

-2<\Re\nu<0

,

ⓘ

Symbols:: $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\cot\NVar{z}$ : cotangent function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral, $\Re$ : real part and $\nu$ : real or complex order
Permalink:: http://dlmf.nist.gov/11.7.E9
Encodings:: pMML, png, TeX
See also:: Annotations for §11.7(ii), §11.7 and Ch.11

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11.7.10

\int_{0}^{\infty}t^{-\nu-1}\mathbf{H}_{\nu}\left(t\right)\,\mathrm{d}t=\frac{% \pi}{2^{\nu+1}\Gamma\left(\nu+1\right)},

\Re\nu>-\tfrac{3}{2}

,

ⓘ

Symbols:: $\Gamma\left(\NVar{z}\right)$ : gamma function, $\mathbf{H}_{\NVar{\nu}}\left(\NVar{z}\right)$ : Struve function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\int$ : integral, $\Re$ : real part and $\nu$ : real or complex order
Keywords:: Mellin transform
Permalink:: http://dlmf.nist.gov/11.7.E10
Encodings:: pMML, png, TeX
See also:: Annotations for §11.7(ii), §11.7 and Ch.11

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29: 20.3 Graphics

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30: 28.22 Connection Formulas

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28.22.1

{\operatorname{Mc}^{(1)}_{m}}\left(z,h\right)=\sqrt{\dfrac{2}{\pi}}\dfrac{1}{g% _{\mathit{e},m}(h)\operatorname{ce}_{m}\left(0,h^{2}\right)}\operatorname{Ce}_% {m}\left(z,h^{2}\right),

ⓘ

Symbols:: $\operatorname{ce}_{\NVar{n}}\left(\NVar{z},\NVar{q}\right)$ : Mathieu function, $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{Ce}_{\NVar{\nu}}\left(\NVar{z},\NVar{q}\right)$ : modified Mathieu function, ${\operatorname{Mc}^{(\NVar{j})}_{\NVar{n}}}\left(\NVar{z},\NVar{h}\right)$ : radial Mathieu function, $m$ : integer, $h$ : parameter, $z$ : complex variable and $g_{\mathit{e},n}(h)$ , $g_{\mathit{o},n}(h)$ : joining factors
A&S Ref:: 20.6.15 (in different form)
Permalink:: http://dlmf.nist.gov/28.22.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §28.22(i), §28.22 and Ch.28

►

28.22.2

{\operatorname{Ms}^{(1)}_{m}}\left(z,h\right)=\sqrt{\dfrac{2}{\pi}}\frac{1}{g_% {\mathit{o},m}(h)\operatorname{se}_{m}'\left(0,h^{2}\right)}\operatorname{Se}_% {m}\left(z,h^{2}\right),

ⓘ

Symbols:: $\operatorname{se}_{\NVar{n}}\left(\NVar{z},\NVar{q}\right)$ : Mathieu function, $\pi$ : the ratio of the circumference of a circle to its diameter, ${\operatorname{Ms}^{(\NVar{j})}_{\NVar{n}}}\left(\NVar{z},\NVar{h}\right)$ : radial Mathieu function, $\operatorname{Se}_{\NVar{\nu}}\left(\NVar{z},\NVar{q}\right)$ : modified Mathieu function, $m$ : integer, $h$ : parameter, $z$ : complex variable and $g_{\mathit{e},n}(h)$ , $g_{\mathit{o},n}(h)$ : joining factors
Permalink:: http://dlmf.nist.gov/28.22.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §28.22(i), §28.22 and Ch.28

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28.22.5

g_{\mathit{e},2m}(h)=(-1)^{m}\sqrt{\dfrac{2}{\pi}}\dfrac{\operatorname{ce}_{2m% }\left(\frac{1}{2}\pi,h^{2}\right)}{A_{0}^{2m}(h^{2})},

ⓘ

Symbols:: $\operatorname{ce}_{\NVar{n}}\left(\NVar{z},\NVar{q}\right)$ : Mathieu function, $\pi$ : the ratio of the circumference of a circle to its diameter, $m$ : integer, $h$ : parameter, $g_{\mathit{e},n}(h)$ , $g_{\mathit{o},n}(h)$ : joining factors and $A_{m}(q)$ : Fourier coefficient
Permalink:: http://dlmf.nist.gov/28.22.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §28.22(i), §28.22 and Ch.28

►

28.22.6

g_{\mathit{e},2m+1}(h)=(-1)^{m+1}\sqrt{\frac{2}{\pi}}\dfrac{\operatorname{ce}_% {2m+1}'\left(\frac{1}{2}\pi,h^{2}\right)}{hA_{1}^{2m+1}(h^{2})},

ⓘ

Symbols:: $\operatorname{ce}_{\NVar{n}}\left(\NVar{z},\NVar{q}\right)$ : Mathieu function, $\pi$ : the ratio of the circumference of a circle to its diameter, $m$ : integer, $h$ : parameter, $g_{\mathit{e},n}(h)$ , $g_{\mathit{o},n}(h)$ : joining factors and $A_{m}(q)$ : Fourier coefficient
Permalink:: http://dlmf.nist.gov/28.22.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §28.22(i), §28.22 and Ch.28

►

28.22.7

g_{\mathit{o},2m+1}(h)=(-1)^{m}\sqrt{\dfrac{2}{\pi}}\dfrac{\operatorname{se}_{% 2m+1}\left(\frac{1}{2}\pi,h^{2}\right)}{hB_{1}^{2m+1}(h^{2})},

ⓘ

Symbols:: $\operatorname{se}_{\NVar{n}}\left(\NVar{z},\NVar{q}\right)$ : Mathieu function, $\pi$ : the ratio of the circumference of a circle to its diameter, $m$ : integer, $h$ : parameter, $g_{\mathit{e},n}(h)$ , $g_{\mathit{o},n}(h)$ : joining factors and $B_{m}(q)$ : Fourier coefficient
Permalink:: http://dlmf.nist.gov/28.22.E7
Encodings:: pMML, png, TeX
See also:: Annotations for §28.22(i), §28.22 and Ch.28

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