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NIntegrate singularity problem v4.0 vs v5.0

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  • Subject: [mg44412] NIntegrate singularity problem v4.0 vs v5.0
  • From: soummer at stsci.edu (Remi Soummer)
  • Date: Sat, 8 Nov 2003 04:50:54 -0500 (EST)
  • Sender: owner-wri-mathgroup at wolfram.com

Hi,
the following code runs on v4.0.1 but not on v5.0, because of the
changes in NIntegrate function. It seems that v5.0 cannot handle the
conditional definition of the function K[].

There is a singularity for r=xi and I tried to use the new option in
v5.0, removing the conditional definition of K[] and giving the
singularity point r=x directly to NIntegrate :
\!\(Terme[x_, \[Alpha]_, \[Lambda]_] := \(\((2  \[Pi])\)\^2\)
      NIntegrate[r\ \ K[r, x, \[Alpha], \[Lambda]], {r, 0, x, 1\/2}]\)
it works fine for this function, but produces an other error in the
following integrals.
If someone has ideas about this problem or could help me, I will
greatly appreciate !
Thanks,
Rémi

here is the code:

\!\(K[r_, \[Xi]_, \[Alpha]_, \[Lambda]_] := \(1\/\(2\ \[Pi]\
\[Lambda]\ \
\((r\^2 - \[Xi]\^2)\)\)\) \((r\ \[Alpha]\ BesselJ[
                0, \(2\ \[Pi]\ \[Alpha]\ \[Xi]\)\/\[Lambda]]\ BesselJ[
                1, \(2\ \[Pi]\ r\ \[Alpha]\)\/\[Lambda]] - \[Alpha]\
\[Xi]\ \
BesselJ[0, \(2\ \[Pi]\ r\ \[Alpha]\)\/\[Lambda]]\ BesselJ[
                1, \(2\ \[Pi]\ \[Alpha]\ \[Xi]\)\/\[Lambda]])\) /;
      UnsameQ[r, \[Xi]]\n
  K[r_, \[Xi]_, \[Alpha]_, \[Lambda]_] := \(\[Alpha]\^2\ \((BesselJ[0,
\(2\ \
\[Pi]\ \[Alpha]\ r\)\/\[Lambda]]\^2 + BesselJ[1, \(2\ \[Pi]\ \[Alpha]\
r\)\/\
\[Lambda]]\^2)\)\)\/\(2\ \[Lambda]\^2\) /; SameQ[r, \[Xi]]\n
  Terme[x_, \[Alpha]_, \[Lambda]_] := \(\((2  \[Pi])\)\^2\)
      NIntegrate[r\ \ K[r, x, \[Alpha], \[Lambda]], {r, 0, 1\/2}]\n
  \(PsiC[x_, r1_, r2_, z1_, z2_, \[Lambda]_] :=
      1 + Terme[x,
            r2, \[Lambda]] \((\[ExponentialE]\^\(\[ImaginaryI]\ \ 2 
\[Pi]\ 2\
\ z2/\[Lambda]\) - 1)\) +
        Terme[x,
            r1, \[Lambda]] \((\[ExponentialE]\^\(\[ImaginaryI]\ \ 2 
\[Pi]\ 2\
\ z1/\[Lambda]\) - \[ExponentialE]\^\(\[ImaginaryI]\ \ 2  \[Pi]\ 2\
z2/\
\[Lambda]\))\);\)\n
  \(Cr[r1_, r2_, z1_, z2_] :=
      NIntegrate[
        NIntegrate[
          2  \[Pi]\ x\ Abs[PsiC[x, r1, r2, z1, z2, \[Lambda]]]\^2, {x,
            0,  .5}], {\[Lambda],  .8, 1.2}];\)\n
  Cr[ .3,  .5, 2.1, 1.5]\)


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