 enter npoints,number_propagators,rank,scaloop,muscale,    thrs
     
 scaloop= 1 -> looptools 1-loop 
 scaloop= 2 -> avh 1-loop (massive with complex masses)
 scaloop= 3 -> qcdloop   1-loop (Ellis and Zanderighi)
 muscale (dimension of energy) is the scale
 for the 1-loop integrals
     
  
 ----------------------------------------------------- 
 |  You are using CutTools - Version 1.6.5           | 
 |  Authors: G. Ossola, C. Papadopoulos, R. Pittau   | 
 |  Published in JHEP 0803:042,2008                  | 
 |  http://www.ugr.es/~pittau/CutTools               | 
 ----------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop 1.1                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren <hamerenREMOVETHIS@ifj.edu.pl>           #
#   date: 09-09-2010                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren, arXiv:1007.4716 [hep-ph]                          #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#    JHEP 0909:106,2009, arXiv:0903.4665 [hep-ph]                      #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 MESSAGE from avh_olo_mu_set: scale (mu, not mu^2) set to:   1.0000000000000000     
 MESSAGE from avh_olo_prec: precision set to  2.22044604925031308E-016
 MESSAGE from avh_olo_onshell: threshold set to:  9.99999999999999955E-007
                
   iter=            1
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -583713.09837047942     ,  226241.52946217696     )
  coeff of 1/eps   pole amp(1)= (  118098.20494896814     , -4272.2583679749077     )
  coeff of 1/eps^2 pole amp(2)= ( -1456.8044025821146     ,-2.12498967044708461E-009)
                           R_1= (  69764.297371289111     , 2.66439217259975460E-004)
                    amp(0)+R_1= ( -513948.80099919031     ,  226241.52972861618     )
                        stable= T
                
                
   iter=            2
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -795845.90877087903     ,  634789.66791268601     )
  coeff of 1/eps   pole amp(1)= (  201344.18146918734     , -58547.867477787753     )
  coeff of 1/eps^2 pole amp(2)= ( -18734.105402574874     , 1.96943078522142092E-009)
                           R_1= (  156673.78485252612     ,-3.79429085735704427E-004)
                    amp(0)+R_1= ( -639172.12391835288     ,  634789.66753325693     )
                        stable= T
                
                
   iter=            3
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -814040.82621648489     ,  504472.03949133574     )
  coeff of 1/eps   pole amp(1)= (  154401.03467581092     , -16885.930186573987     )
  coeff of 1/eps^2 pole amp(2)= ( -8528.4996025752844     , 2.02455723724892508E-009)
                           R_1= (  210774.26385573676     , 1.18480240513727868E-005)
                    amp(0)+R_1= ( -603266.56236074818     ,  504472.03950318380     )
                        stable= T
                
                
   iter=            4
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -726704.63415927789     ,  377561.76996308716     )
  coeff of 1/eps   pole amp(1)= (  124986.48994020763     , -5600.6963964665883     )
  coeff of 1/eps^2 pole amp(2)= ( -2125.4738934164816     ,-4.97110540775749292E-010)
                           R_1= (  211231.67788524806     , 1.46019040473465066E-005)
                    amp(0)+R_1= ( -515472.95627402980     ,  377561.76997768908     )
                        stable= T
                
                
   iter=            5
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -641772.10933814337     ,  190419.59826990834     )
  coeff of 1/eps   pole amp(1)= (  113438.98218180053     , -8.4807709070322570     )
  coeff of 1/eps^2 pole amp(2)= ( -92.962985160760581     , 1.32427491538045355E-009)
                           R_1= (  113198.20686425420     ,-2.10726897688169704E-004)
                    amp(0)+R_1= ( -528573.90247388917     ,  190419.59805918144     )
                        stable= T
                
                
   iter=            6
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -1292309.5724437714     ,  1724091.1936584120     )
  coeff of 1/eps   pole amp(1)= (  522022.46279577632     , -272967.83503466577     )
  coeff of 1/eps^2 pole amp(2)= ( -87293.580674022582     , 7.61211021920441545E-010)
                           R_1= (  46078.672568763854     ,-1.76042405983381441E-004)
                    amp(0)+R_1= ( -1246230.8998750076     ,  1724091.1934823697     )
                        stable= T
                
                
   iter=            7
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -493938.17719215737     ,  362001.31986552058     )
  coeff of 1/eps   pole amp(1)= (  116232.37375045079     , -3478.0769924159194     )
  coeff of 1/eps^2 pole amp(2)= ( -3808.6343317977498     ,-1.11990112243784484E-009)
                           R_1= (  11991.936548154772     , 6.20511673689933790E-006)
                    amp(0)+R_1= ( -481946.24064400257     ,  362001.31987172569     )
                        stable= T
                
                
   iter=            8
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -828184.43802550284     ,  754846.47931332886     )
  coeff of 1/eps   pole amp(1)= (  234621.73106502119     , -108355.80589285880     )
  coeff of 1/eps^2 pole amp(2)= ( -36140.770825055035     ,-7.96259995653886147E-010)
                           R_1= (  205067.21097657376     ,-3.37784786713183197E-006)
                    amp(0)+R_1= ( -623117.22704892908     ,  754846.47930995107     )
                        stable= T
                
                
   iter=            9
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -720698.45204457105     ,  747130.48616596672     )
  coeff of 1/eps   pole amp(1)= (  226712.22186359996     , -97440.776020370598     )
  coeff of 1/eps^2 pole amp(2)= ( -31554.729237317741     ,-4.37992045364122594E-010)
                           R_1= (  125080.42561597942     ,-3.53063843225041787E-006)
                    amp(0)+R_1= ( -595618.02642859169     ,  747130.48616243608     )
                        stable= T
                
                
   iter=           10
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -590486.29495873838     ,  327893.30862872105     )
  coeff of 1/eps   pole amp(1)= (  123380.13477354188     , -8978.6925779183257     )
  coeff of 1/eps^2 pole amp(2)= ( -3188.5750035788878     ,-5.93991670216864555E-010)
                           R_1= (  112897.03876145266     , 8.62092896027840526E-007)
                    amp(0)+R_1= ( -477589.25619728572     ,  327893.30862958316     )
                        stable= T
                
 n_mp  =           0
 n_disc=           0
