Characteristic Function
Given a subset 
of a larger set,
the characteristic function 
, sometimes
also called the indicator function, is the function defined to be identically one
on 
, and is zero elsewhere. Characteristic
functions are sometimes denoted using the so-called Iverson
bracket, and can be useful descriptive devices since it is easier to say, for
example, "the characteristic function of the primes" rather than repeating
a given definition. A characteristic function is a special case of a simple
function.
The term characteristic function is used in a different way in probability, where it is denoted 
and is defined as the Fourier
transform of the probability density
function using Fourier transform
parameters 
,
 |  | ](/National_Library/20160521004321im_/http://mathworld.wolfram.com/images/equations/CharacteristicFunction/Inline8.gif) |
(1)
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(2)
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(3)
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(4)
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(5)
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where 
(sometimes also denoted 
) is the 
th moment about
0 and 
(Abramowitz and Stegun 1972,
p. 928; Morrison 1995).
A statistical distribution is not uniquely specified by its moments, but is by its characteristic function if all of its moments are finite and the series for its characteristic function converges absolutely near the origin (Papoulis 1991, p. 116). In this case, the probability density function is given by
=1/(2pi)int_(-infty)^inftye^(-itx)phi(t)dt](/National_Library/20160521004321im_/http://mathworld.wolfram.com/images/equations/CharacteristicFunction/NumberedEquation1.gif) |
(6)
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(Papoulis 1991, p. 116).
The characteristic function can therefore be used to generate raw moments,
![phi^((n))(0)=[(d^nphi)/(dt^n)]_(t=0)=i^nmu_n^'](/National_Library/20160521004321im_/http://mathworld.wolfram.com/images/equations/CharacteristicFunction/NumberedEquation2.gif) |
(7)
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or the cumulants 
,
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(8)
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characteristic function
of gaussian
