Generalized exponential integral with negative argument

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Benjamin Moll
Benjamin Moll il 12 Set 2016
Commentato: Walter Roberson il 15 Set 2016
Is there a way to compute the generalized exponential integral E[a,x]=int_1^infty e^(-x t) t^a dt with negative x? In particular, I need to compute the integral int_1^z Exp[-y^b/b] dy where b<0 and z>1. (I need to do this for 1000’s of z-values so numerical integration is not an option) Mathematica tells me this equals an expression involving ExpIntegralE[(-1 + b)/b, 1/b] (to be precise ExpIntegralE[(-1 + b)/b, 1/b] - z ExpIntegralE[(-1 + b)/b, z^b/b])/b. So since b<0, x=1/b is negative, and this causes a problem.
There seems to be a related thread but with no answer https://www.mathworks.com/matlabcentral/newsreader/view_thread/289192
Finally, there is an implementation of E[a,x] on file exchange https://www.mathworks.com/matlabcentral/fileexchange/52694-generalised-exponential-integral but it cannot handle negative x-values.

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Star Strider
Star Strider il 12 Set 2016
See if expint will do what you want. There’s also a Symbolic Math Toolbox function by the same name, so search for it if you want it instead.
The gammainc function computes the incomplete gamma function.
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Star Strider
Star Strider il 15 Set 2016
My (our) pleasure!
Add your vote to mine for Walter’s Answer, and Walter gets the same 4 RP’s I got.
Walter Roberson
Walter Roberson il 15 Set 2016
The defining formula for Ei with two arguments is in terms of the Gamma function, which has singularities at every negative integer, so if your 1/b is a negative integer you should be expecting a singularity.

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Walter Roberson
Walter Roberson il 12 Set 2016
Modificato: Walter Roberson il 12 Set 2016
This formula appears to work. It requires the symbolic toolbox
(-z^(b+1)*hypergeom([(1/2)*(b+1)/b], [3/2, (1/2)*(3*b+1)/b], (1/4)*z^(2*b)/b^2)+b*z*(b+1)*hypergeom([(1/2)/b], [1/2, (1/2)*(2*b+1)/b], (1/4)*z^(2*b)/b^2)+hypergeom([(1/2)*(b+1)/b], [3/2, (1/2)*(3*b+1)/b], (1/4)/b^2)+(-b^2-b)*hypergeom([(1/2)/b], [1/2, (1/2)*(2*b+1)/b], (1/4)/b^2))/(b*(b+1))
Note: this might fail if 1/b is an integer
Reference: Maple
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Benjamin Moll
Benjamin Moll il 13 Set 2016
Great thank you Star Strider and Walter. Both formulas work and give the same answer. One question left: I need to do this for a vector of 1000 z's, e.g. z=linspace(1,2,1000). The way you guys do it, it cannot handle vectors. Is there a way to get this to work without writing a loop?
Walter Roberson
Walter Roberson il 13 Set 2016
Modificato: Walter Roberson il 15 Set 2016
syms b z
G = (-z^(b+1)*hypergeom([(1/2)*(b+1)/b], [3/2, (1/2)*(3*b+1)/b], (1/4)*z^(2*b)/b^2)+b*z*(b+1)*hypergeom([(1/2)/b], [1/2, (1/2)*(2*b+1)/b], (1/4)*z^(2*b)/b^2)+hypergeom([(1/2)*(b+1)/b], [3/2, (1/2)*(3*b+1)/b], (1/4)/b^2)+(-b^2-b)*hypergeom([(1/2)/b], [1/2, (1/2)*(2*b+1)/b], (1/4)/b^2))/(b*(b+1));
GG = subs(G, {z, b}, {linspace(1,2,1000), -sqrt(pi)});
GGn = double(GG);

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