eljose
Mar20-06, 03:25 PM
Let,s suppose we have the integral:
\int_{-\infty}^{\infty}dxF(x)
but unfortunately we have a problem..the function F(x) has several poles of integer order r (r=1,2,3,4......) so it diverges :uhh: :uhh: :uhh: then my question is if there is a form to redefine our integral so it can be assigned a finite value by "eliminating" somehow its poles considering them as residues so finally we have an integral:
\int_{-\infty}^{\infty}dxF(x)+ Res(F) where the integral is
finite and Res(F) would be the sum of the residues of F(x) at its poles...or something similar..pehaps with the "Cauchy principal value integral"?....
\int_{-\infty}^{\infty}dxF(x)
but unfortunately we have a problem..the function F(x) has several poles of integer order r (r=1,2,3,4......) so it diverges :uhh: :uhh: :uhh: then my question is if there is a form to redefine our integral so it can be assigned a finite value by "eliminating" somehow its poles considering them as residues so finally we have an integral:
\int_{-\infty}^{\infty}dxF(x)+ Res(F) where the integral is
finite and Res(F) would be the sum of the residues of F(x) at its poles...or something similar..pehaps with the "Cauchy principal value integral"?....