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seen | Mar 22 '13 at 20:54 | |
stats | profile views | 21 |
Mar 22 |
comment |
An integral with Gamma functions
@Igor I don't have this book you refer to with me right now. Can you kindly write down the Fourier transform and the convolution steps? At least the steps and the results. (..I didn't get why you needed to Fourier transform to do the convolution..) |
Mar 22 |
comment |
An integral with Gamma functions
@Igor Khavkine Thanks for the reply. The issue about the poles that I am confused about is this - for generic values of $\nu_1$ and $\nu_2$ all the $4$ Gamma functions in the value of the integral which have a $d$ in the argument are going to get poles. So individually each of the $4$ Gamma functions has a pole. Now how does one multiply and divide such things? |
Mar 21 |
comment |
Is connected correlation/cumulant expansion additive?
@Andy Putman I wanted to remove my question. How can I do that!? |
Mar 21 |
asked | An integral with Gamma functions |
Mar 21 |
revised |
Is connected correlation/cumulant expansion additive?
deleted 2258 characters in body; edited title |
Mar 13 |
awarded | Student |
Mar 11 |
revised |
Is connected correlation/cumulant expansion additive?
added 4 characters in body |
Mar 11 |
revised |
Is connected correlation/cumulant expansion additive?
added 15 characters in body; added 2 characters in body |
Mar 9 |
awarded | Editor |
Mar 9 |
revised |
Is connected correlation/cumulant expansion additive?
added 750 characters in body |
Mar 9 |
asked | Is connected correlation/cumulant expansion additive? |