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EllipticExp






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Elliptic Functions > EllipticExp[z,{a,b}] > Introduction to to elliptic exp and elliptic log





The best-known properties and formulas for elliptic exp and elliptic log


The elliptic exponent , its derivative , and the elliptic logarithm have the following values at the origin point:

The elliptic exponent has the following value at the specialized point :

The elliptic exponent and its derivative are vector‐valued functions of , , and , which are analytic in each component, and they are defined over .

The elliptic logarithm is an analytical function of , , , , which is defined in .

The elliptic exponent , its derivative , and the elliptic logarithm have complicated branch cuts.

The elliptic logarithm does not have poles and essential singularities.

The elliptic exponent , its derivative , and the elliptic logarithm do not have periodicity.

The elliptic exponent , its derivative , and the elliptic logarithm have mirror symmetry:

The elliptic logarithm has the following integral representation:

The elliptic exponent satisfies the following identities including the complete elliptic integral :

The first derivatives of elliptic exponent and the elliptic logarithm have the following representations:

The elliptic exponent , its derivative , and the elliptic logarithm satisfy the following ordinary nonlinear differential equations:





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