Confluent Hypergeometric Function of the First Kind

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adi
adi le 24 Déc 2015
Commenté : Muhammad Abdullah le 9 Juil 2024
Is there a way to calculate this function in matlab, specifically in 2013a?
I got this function in Mathmatica, it's called Hypergeometric1F1 there. I've seen kummerU in matlab, but the definitions look different. in Mathmatica the definition is: http://mathworld.wolfram.com/ConfluentHypergeometricFunctionoftheFirstKind.html in matlab it's different: http://www.mathworks.com/help/symbolic/kummeru.html

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Brendan Hamm
Brendan Hamm le 24 Déc 2015
The kummerU function is the Confluent Hypergeometric Function of the Second Kind.
hypergeom(a,b,z) is the Confluent Hypergeometric Function of the First Kind.
Test it:
>> F = @(a,b,z) gamma(b)/(gamma(b-a)*gamma(a))*integral(@(t) exp(z.*t).*t.^(a-1).*(1-t).^(b-a-1),0,1);
>> F(1,2,-pi)
ans =
0.3046
>> hypergeom(1,2,-pi)
ans =
0.3046
  1 commentaire
Muhammad Abdullah
Muhammad Abdullah le 9 Juil 2024
hello @Brendan Hamm
I have a characteristic function which is
this is derived from laplace transform
, here -p = iota*t
from the characteristic function, we made the confluent hypergeometric function as
I want to solve this confluent function via the following equation
,here c=a+b & z =N*x*(a+b/a)*(p/p+1)
I want to know we have to input z as a single complex number or a matrix of complex numbers?... have to compare the results with the kummerU function...
after this i have to perform the inverse laplace function (ilaplace) also...which doesn't handle the numeric double values...so have to perform this inverse via an algo also...

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