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complementary exponential integral

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11: 7.11 Relations to Other Functions

… ►

7.11.3

\operatorname{erfc}z=\frac{z}{\sqrt{\pi}}E_{\frac{1}{2}}\left(z^{2}\right).

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $E_{\NVar{p}}\left(\NVar{z}\right)$ : generalized exponential integral and $z$ : complex variable
Referenced by:: §7.12(i)
Permalink:: http://dlmf.nist.gov/7.11.E3
Encodings:: pMML, png, TeX
See also:: Annotations for §7.11, §7.11 and Ch.7

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12: 22.2 Definitions

… ►

22.2.1

q=\exp\left(-\pi{K^{\prime}}\left(k\right)/K\left(k\right)\right),

ⓘ

Defines:: $q$ : nome
Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, ${K^{\prime}}\left(\NVar{k}\right)$ : Legendre’s complementary complete elliptic integral of the first kind, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $\exp\NVar{z}$ : exponential function and $k$ : modulus
Referenced by:: §20.9(i), §22.16(i)
Permalink:: http://dlmf.nist.gov/22.2.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §22.2 and Ch.22

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13: 19.5 Maclaurin and Related Expansions

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19.5.5

q=\exp\left(-\pi{K^{\prime}}\left(k\right)/K\left(k\right)\right)=r+8r^{2}+84r% ^{3}+992r^{4}+\cdots,

r=\frac{1}{16}k^{2}

,

0\leq k\leq 1

.

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, ${K^{\prime}}\left(\NVar{k}\right)$ : Legendre’s complementary complete elliptic integral of the first kind, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $\exp\NVar{z}$ : exponential function, $q$ : nome and $k$ : real or complex modulus
Referenced by:: §19.5
Permalink:: http://dlmf.nist.gov/19.5.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §19.5 and Ch.19

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14: 23.15 Definitions

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23.15.1

q=\exp\left(-\pi\frac{{K^{\prime}}\left(k\right)}{K\left(k\right)}\right),

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Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, ${K^{\prime}}\left(\NVar{k}\right)$ : Legendre’s complementary complete elliptic integral of the first kind, $K\left(\NVar{k}\right)$ : Legendre’s complete elliptic integral of the first kind, $\exp\NVar{z}$ : exponential function, $q$ : nome and $k$ : modulus
Permalink:: http://dlmf.nist.gov/23.15.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §23.15(i), §23.15 and Ch.23

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15: 7.5 Interrelations

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7.5.10

\mathrm{g}\left(z\right)\pm i\mathrm{f}\left(z\right)=\tfrac{1}{2}(1\pm i)e^{% \zeta^{2}}\operatorname{erfc}\zeta.

ⓘ

Symbols:: $\mathrm{f}\left(\NVar{z}\right)$ : auxiliary function for Fresnel integrals, $\mathrm{g}\left(\NVar{z}\right)$ : auxiliary function for Fresnel integrals, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $z$ : complex variable and $\zeta$ : change of variable
A&S Ref:: 7.3.22 (in different form)
Referenced by:: §7.12(ii), §7.13(iv), §7.5, §7.5
Permalink:: http://dlmf.nist.gov/7.5.E10
Encodings:: pMML, png, TeX
See also:: Annotations for §7.5 and Ch.7

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16: 29.16 Asymptotic Expansions

… ►The approximations for Lamé polynomials hold uniformly on the rectangle

0\leq\Re z\leq K

,

0\leq\Im z\leq{K^{\prime}}

, when

n k

and

nk^{\prime}

assume large real values. The approximating functions are exponential, trigonometric, and parabolic cylinder functions.

17: 7.14 Integrals

… ►

7.14.1

\int_{0}^{\infty}e^{2iat}\operatorname{erfc}\left(bt\right)\,\mathrm{d}t={% \frac{1}{a\sqrt{\pi}}F\left(\frac{a}{b}\right)+\frac{i}{2a}\left(1-e^{-(a/b)^{% 2}}\right)},

a\in\mathbb{C}

,

|\operatorname{ph}b|<\tfrac{1}{4}\pi

.

ⓘ

Symbols:: $F\left(\NVar{z}\right)$ : Dawson’s integral, $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\mathbb{C}$ : complex plane, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\in$ : element of, $\mathrm{e}$ : base of natural logarithm, $\mathrm{i}$ : imaginary unit, $\int$ : integral and $\operatorname{ph}$ : phase
A&S Ref:: 7.4.18 (in different form)
Referenced by:: §7.14(i)
Permalink:: http://dlmf.nist.gov/7.14.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §7.14(i), §7.14(i), §7.14 and Ch.7

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7.14.2

\int_{0}^{\infty}e^{-at}\operatorname{erf}\left(bt\right)\,\mathrm{d}t=\frac{1% }{a}e^{a^{2}/(4b^{2})}\operatorname{erfc}\left(\frac{a}{2b}\right),

\Re a>0

,

|\operatorname{ph}b|<\tfrac{1}{4}\pi

,

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\operatorname{erf}\NVar{z}$ : error function, $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $\operatorname{ph}$ : phase and $\Re$ : real part
Keywords:: Laplace transform
A&S Ref:: 7.4.17
Referenced by:: §7.14(i)
Permalink:: http://dlmf.nist.gov/7.14.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §7.14(i), §7.14(i), §7.14 and Ch.7

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7.14.4

\int_{0}^{\infty}e^{(a-b)t}\operatorname{erfc}\left(\sqrt{at}+\sqrt{\frac{c}{t% }}\right)\,\mathrm{d}t=\frac{e^{-2(\sqrt{ac}+\sqrt{bc})}}{\sqrt{b}(\sqrt{a}+% \sqrt{b})},

|\operatorname{ph}a|<\frac{1}{2}\pi

,

\Re b>0

,

\Re c\geq 0

.

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $\operatorname{ph}$ : phase and $\Re$ : real part
Keywords:: Laplace transform
A&S Ref:: 7.4.21
Referenced by:: §3.5(ix), §7.14(i)
Permalink:: http://dlmf.nist.gov/7.14.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §7.14(i), §7.14(i), §7.14 and Ch.7

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18: 7.7 Integral Representations

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7.7.1

\operatorname{erfc}z=\frac{2}{\pi}e^{-z^{2}}\int_{0}^{\infty}\frac{e^{-z^{2}t^% {2}}}{t^{2}+1}\,\mathrm{d}t,

|\operatorname{ph}z|\leq\frac{1}{4}\pi

,

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $\operatorname{ph}$ : phase and $z$ : complex variable
A&S Ref:: 7.4.11 (in different form)
Referenced by:: §7.11, §7.7(i)
Permalink:: http://dlmf.nist.gov/7.7.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §7.7(i), §7.7 and Ch.7

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7.7.4

\int_{0}^{\infty}\frac{e^{-at}}{\sqrt{t+z^{2}}}\,\mathrm{d}t=\sqrt{\frac{\pi}{% a}}e^{az^{2}}\operatorname{erfc}\left(\sqrt{a}z\right),

\Re a>0

,

\Re z>0

.

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $\Re$ : real part and $z$ : complex variable
Keywords:: Laplace transform
A&S Ref:: 7.4.8
Referenced by:: §7.7(i)
Permalink:: http://dlmf.nist.gov/7.7.E4
Encodings:: pMML, png, TeX
See also:: Annotations for §7.7(i), §7.7 and Ch.7

… ►

7.7.6

\int_{x}^{\infty}e^{-(at^{2}+2bt+c)}\,\mathrm{d}t=\frac{1}{2}\sqrt{\frac{\pi}{% a}}e^{(b^{2}-ac)/a}\operatorname{erfc}\left(\sqrt{a}x+\frac{b}{\sqrt{a}}\right),

\Re a>0

.

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $\Re$ : real part and $x$ : real variable
A&S Ref:: 7.4.32 (in different form)
Referenced by:: §7.14(i), §7.7(i)
Permalink:: http://dlmf.nist.gov/7.7.E6
Encodings:: pMML, png, TeX
See also:: Annotations for §7.7(i), §7.7 and Ch.7

►

7.7.7

\int_{x}^{\infty}e^{-a^{2}t^{2}-(b^{2}/t^{2})}\,\mathrm{d}t=\frac{\sqrt{\pi}}{% 4a}\left(e^{2ab}\operatorname{erfc}\left(ax+(b/x)\right)+e^{-2ab}\operatorname% {erfc}\left(ax-(b/x)\right)\right),

x>0

,

|\operatorname{ph}a|<\tfrac{1}{4}\pi

.

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $\operatorname{ph}$ : phase and $x$ : real variable
A&S Ref:: 7.4.33 (in different form)
Referenced by:: §7.7(i), §7.8
Permalink:: http://dlmf.nist.gov/7.7.E7
Encodings:: pMML, png, TeX
See also:: Annotations for §7.7(i), §7.7 and Ch.7

…

19: 7.24 Approximations

… ►

•

Luke (1969b, pp. 323–324) covers $\frac{1}{2}\sqrt{\pi}\operatorname{erf}x$ and $e^{x^{2}}F\left(x\right)$ for $-3\leq x\leq 3$ (the Chebyshev coefficients are given to 20D); $\sqrt{\pi}xe^{x^{2}}\operatorname{erfc}x$ and $2xF\left(x\right)$ for $x\geq 3$ (the Chebyshev coefficients are given to 20D and 15D, respectively). Coefficients for the Fresnel integrals are given on pp. 328–330 (20D).

… ►

•

Shepherd and Laframboise (1981) gives coefficients of Chebyshev series for $(1+2x)e^{x^{2}}\operatorname{erfc}x$ on $(0,\infty)$ (22D).

…

20: 7.20 Mathematical Applications

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7.20.1

\frac{1}{\sigma\sqrt{2\pi}}\int_{-\infty}^{x}e^{-(t-m)^{2}/(2\sigma^{2})}\,% \mathrm{d}t=\frac{1}{2}\operatorname{erfc}\left(\frac{m-x}{\sigma\sqrt{2}}% \right)=Q\left(\frac{m-x}{\sigma}\right)=P\left(\frac{x-m}{\sigma}\right).

ⓘ

Symbols:: $\pi$ : the ratio of the circumference of a circle to its diameter, $\operatorname{erfc}\NVar{z}$ : complementary error function, $\,\mathrm{d}\NVar{x}$ : differential of $x$ , $\mathrm{e}$ : base of natural logarithm, $\int$ : integral, $x$ : real variable, $m$ : mean and $\sigma$ : standard deviation
A&S Ref:: 7.1.22 (slightly modified)
Permalink:: http://dlmf.nist.gov/7.20.E1
Encodings:: pMML, png, TeX
See also:: Annotations for §7.20(iii), §7.20 and Ch.7

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