program= LPOTT input= in.he3.coul Tue Feb 11 14:37:09 PST 1986 cat tfoldc>tape3 cat gth>tape2 cat denomt>tape4 for it do run LPOTT $it & wait done rm tape2 tape3 tape4 Run Time real 2:39.8 user 1:31.1 sys 0.1 Pion Scattering via LPOTT(VaxVersion) on Ridge 32,1/86 Pion Scattering via LPOTT(VaxVersion) on Ridge 32,1/86 Pion Scattering via LPOTT(VaxVersion) on Ridge 32,1/86 1 9 200.0000 16 22 0.20E+05 3-2.00-4.00 NO OF GRID POINTS= 16 0.6540 0.4560 0.8210 0.6750 0.3660 0.8360 2.1600 5.0000 2 3 0 101733003 0 0 0 0 0 3 0 0 1 0 NIFTY( 1)= 0 PI+ NIFTY( 2)= 1 *5=BE SHIFT NIFTY( 3)= 0 NO W.F. NIFTY( 4)= 1 NLSP-G(P) NIFTY( 5)= 7 E3B, AAY NIFTY( 6)= 3 SPIN,MS NIFTY( 7)= 3 VABS-OLD NIFTY( 8)= 0 NO DEL/FLD NIFTY( 9)= 0 NO PAULI NIFTY(10)= 3 EXACT COUL NIFTY(11)= 0 PI0,PI-,K+ SHIFT NIFTY(12)= 0 PI+,KO SHIFT NIFTY(13)= 0 PI-CHANNEL SHIFT NIFTY(14)= 0 PI+CHANNEL SHIFT NIFTY(15)= 0 NOT USED SHIFT NIFTY(16)= 3 HE/D NIFTY(17)= 0 KMT NIFTY(18)= 0 full amps NIFTY(19)= 1 hadjm's ff NIFTY(20)= 0 no t10 plt NES,NWAVES,B0R,B0I,C0R,C0I= 59 14 0. 0. 0. 0. NES,NWAVES,B0R,B0I,C0R,C0I= 59 14 -0.04000 0.04000 0. 0.08000 0.4277 0.2079 0.6740 0.4556 0.1340 0.6989 ********** AMASS= 3.0000********** TPI EPILAB ECM(SQRTS) KCM PLAB 200.0000 339.5780 3139.1189 277.5801 309.5661 RELATIVISTIC CALCULATION ENERGY MOMENTUM 200.0000 277.5801 ----- ANGULAR MOMENTUM = 0----- OPT POTEN VALUES FOR KP=K0= 277.580AND L=1 K REV VC RABS(N0 FLIP) RABS(FLIP)IMV IMVABS(NOFLIP),IMABS(FLIP) 0.1479E+01 0.8153E-08 -0.1051E-08 -0.164E-08 0. E+00 0.1034E-06 -0.499E-07 0. E+00 0.7912E+01 0.4641E-07 -0.5592E-08 -0.742E-09 0. E+00 0.3011E-06 -0.563E-07 0. E+00 0.1999E+02 0.1361E-06 -0.1367E-07 0.935E-09 0. E+00 0.8261E-06 -0.896E-07 0. E+00 0.3868E+02 0.2593E-06 -0.2367E-07 0.350E-08 0. E+00 0.1532E-05 -0.156E-06 0. E+00 0.6556E+02 0.4207E-06 -0.2894E-07 0.706E-08 0. E+00 0.2442E-05 -0.241E-06 0. E+00 0.1032E+03 0.5958E-06 -0.1261E-07 0.116E-07 0. E+00 0.3410E-05 -0.325E-06 0. E+00 0.1556E+03 0.7240E-06 0.4855E-07 0.168E-07 0. E+00 0.4119E-05 -0.369E-06 0. E+00 0.2294E+03 0.6819E-06 0.1293E-06 0.211E-07 0. E+00 0.4153E-05 -0.336E-06 0. E+00 0.3359E+03 0.2221E-06 0.8309E-07 0.213E-07 0. E+00 0.3270E-05 -0.225E-06 0. E+00 0.4952E+03 -0.3390E-06 0.1471E-08 0.140E-07 0. E+00 0.1667E-05 -0.923E-07 0. E+00 0.7467E+03 -0.2223E-06 -0.1198E-08 0.333E-08 0. E+00 0.2036E-06 -0.139E-07 0. E+00 0.1175E+04 0.1450E-07 -0.6540E-09 0.485E-10 0. E+00 -0.5552E-08 -0.136E-09 0. E+00 0.1992E+04 0.4788E-10 0.7927E-11 0.452E-16 0. E+00 0.8916E-16 -0.892E-16 0. E+00 0.3854E+04 -0.1021E-10 -0.1019E-10 0.259E-42 0. E+00 0.3595E-42 -0.360E-42 0. E+00 0.9739E+04 0.9206E-11 0.9206E-11 0. E+00 0. E+00 0. E+00 0. E+00 0. E+00 0.5210E+05 0.2013E-12 0.2013E-12 0. E+00 0. E+00 0. E+00 0. E+00 0. E+00 TRUE 2N ANNIHILATION PARAMS FOR K(=KP=K0): IMB,REB,IMC,REC/ THEN, RE, IM VABS(L) FLIP+NOFLIP 277.580 0.80077E-10 -0.80077E-10 0.99041E-14 0. E+00 0.75875E-07 -0.28556E-06 0. E+00 0. E+00 0.22003E-07 -0.28809E-06 0. E+00 0. E+00 0.39446E-08 -0.90736E-07 0. E+00 0. E+00 0.51036E-09 -0.16902E-07 0. E+00 0. E+00 0.51602E-10 -0.22359E-08 0. E+00 0. E+00 0.42798E-11 -0.22937E-09 0. E+00 0. E+00 0.30082E-12 -0.19219E-10 0. E+00 0. E+00 0.18343E-13 -0.13612E-11 0. E+00 0. E+00 0.98762E-15 -0.83490E-13 0. E+00 0. E+00 OPT POTEN VALUES FOR KP=K0= 277.580AND L=1 K REV VC RABS(N0 FLIP) RABS(FLIP)IMV IMVABS(NOFLIP),IMABS(FLIP) 0.2776E+03 0.5093E-06 0.1309E-06 0.220E-07 0. E+00 0.3816E-05 -0.288E-06 0. E+00 DETERMINANT FROM MATRIX INVERSION= 0.5496621E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1890148E-05-0.2756047E-05 0.1890148E-05 0.2756047E-05 NORMALIZED R(K,K..K)= -0.2937567E+00 0.4283301E+00 T(K,K,K)= -0.2072192E+00 0.4924402E+00 ETA= 0.4147 DELTA= -43.9553 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2066079E+00 0.4792975E+00 ETA= 0.4153 DELTA= -42.1390 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.2011656E+00 0.4816070E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.1276200E+00 0.4917004E+00 T(K,K,K)= -0.1914300E+00 0.7375505E+00 ETA= 0.6102 DELTA= -70.5682 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2064276E+00 0.7247922E+00 ETA= 0.6104 DELTA= -68.7193 DETERMINANT FROM MATRIX INVERSION= 0.5496621E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1890148E-05-0.2756047E-05 0.1890148E-05 0.2756047E-05 NORMALIZED R(K,K..K)= -0.2937567E+00 0.4283301E+00 T(K,K,K)= -0.2072192E+00 0.4924402E+00 ETA= 0.4147 DELTA= -43.9553 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2066079E+00 0.4792975E+00 ETA= 0.4153 DELTA= -42.1390 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.2011656E+00 0.4816070E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.1276200E+00 0.4917004E+00 T(K,K,K)= -0.1914300E+00 0.7375505E+00 ETA= 0.6102 DELTA= -70.5682 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2064276E+00 0.7247922E+00 ETA= 0.6104 DELTA= -68.7193 ----- ANGULAR MOMENTUM = 1----- DETERMINANT FROM MATRIX INVERSION= 0.5429848E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1374058E-05-0.3710745E-05 0.1374058E-05 0.3710745E-05 NORMALIZED R(K,K..K)= -0.2135487E+00 0.5767042E+00 T(K,K,K)= -0.1265299E+00 0.5657856E+00 ETA= 0.2852 DELTA= -58.7354 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1289256E+00 0.5602244E+00 ETA= 0.2846 DELTA= -57.5192 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1335696E+00 0.5591354E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.7914602E-01 0.5931294E+00 T(K,K,K)= -0.1187190E+00 0.8896940E+00 ETA= 0.8148 DELTA= -81.5284 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1349751E+00 0.8843126E+00 ETA= 0.8147 DELTA= -80.3241 DETERMINANT FROM MATRIX INVERSION= 0.5935794E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.8774829E-06-0.2788522E-05 0.8774829E-06 0.2788522E-05 NORMALIZED R(K,K..K)= -0.1363737E+00 0.4333772E+00 T(K,K,K)= -0.9867051E-01 0.4629081E+00 ETA= 0.2108 DELTA= -34.6989 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.9662050E-01 0.4586186E+00 ETA= 0.2102 DELTA= -33.4076 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1004225E+00 0.4578011E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.7759475E-01 0.4413792E+00 T(K,K,K)= -0.1163921E+00 0.6620688E+00 ETA= 0.3991 DELTA= -72.1577 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1229433E+00 0.6568927E+00 ETA= 0.3986 DELTA= -70.9586 ----- ANGULAR MOMENTUM = 2----- DETERMINANT FROM MATRIX INVERSION= 0.5759960E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.5567615E-06-0.1868446E-05 0.5567615E-06 0.1868446E-05 NORMALIZED R(K,K..K)= -0.8652889E-01 0.2903840E+00 T(K,K,K)= -0.7760077E-01 0.3427590E+00 ETA= 0.3507 DELTA= -13.1335 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.7270264E-01 0.3405214E+00 ETA= 0.3505 DELTA= -12.2536 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.7885726E-01 0.3391490E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.1665821E-01 0.2869856E+00 T(K,K,K)= -0.2498731E-01 0.4304784E+00 ETA= 0.1478 DELTA= -9.8847 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2298675E-01 0.4299268E+00 ETA= 0.1475 DELTA= -9.0808 DETERMINANT FROM MATRIX INVERSION= 0.6404175E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.4136152E-06-0.1558062E-05 0.4136152E-06 0.1558062E-05 NORMALIZED R(K,K..K)= -0.6428186E-01 0.2421456E+00 T(K,K,K)= -0.6232656E-01 0.2956376E+00 ETA= 0.4273 DELTA= -8.4803 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.5589865E-01 0.2939136E+00 ETA= 0.4271 DELTA= -7.5879 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.6121200E-01 0.2928531E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.2151207E-01 0.2424686E+00 T(K,K,K)= -0.3226810E-01 0.3637030E+00 ETA= 0.2801 DELTA= -6.6597 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2807154E-01 0.3629393E+00 ETA= 0.2798 DELTA= -5.7874 ----- ANGULAR MOMENTUM = 3----- DETERMINANT FROM MATRIX INVERSION= 0.6296228E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1148556E-06-0.6362093E-06 0.1148556E-06 0.6362093E-06 NORMALIZED R(K,K..K)= -0.1785024E-01 0.9887624E-01 T(K,K,K)= -0.2216782E-01 0.1353292E+00 ETA= 0.7307 DELTA= -1.7393 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1264444E-01 0.1346689E+00 ETA= 0.7311 DELTA= -0.9911 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1596011E-01 0.1343163E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.6033997E-02 0.9437797E-01 T(K,K,K)= -0.9050995E-02 0.1415669E+00 ETA= 0.7171 DELTA= -0.7233 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= 0.2889516E-03 0.1412376E+00 ETA= 0.7175 DELTA= 0.0231 DETERMINANT FROM MATRIX INVERSION= 0.6777844E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1063096E-06-0.5712087E-06 0.1063096E-06 0.5712087E-06 NORMALIZED R(K,K..K)= -0.1652207E-01 0.8877420E-01 T(K,K,K)= -0.2090163E-01 0.1226210E+00 ETA= 0.7559 DELTA= -1.5851 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1104964E-01 0.1220147E+00 ETA= 0.7563 DELTA= -0.8372 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1405387E-01 0.1217052E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.7426106E-02 0.8614577E-01 T(K,K,K)= -0.1113916E-01 0.1292187E+00 ETA= 0.7419 DELTA= -0.8604 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1474981E-02 0.1288552E+00 ETA= 0.7423 DELTA= -0.1139 ----- ANGULAR MOMENTUM = 4----- DETERMINANT FROM MATRIX INVERSION= 0.7203389E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.5682258E-07-0.1772112E-06 0.5682258E-07 0.1772112E-06 NORMALIZED R(K,K..K)= -0.8831062E-02 0.2754121E-01 T(K,K,K)= -0.1254508E-01 0.4031235E-01 ETA= 0.9197 DELTA= -0.7816 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2471764E-02 0.4018764E-01 ETA= 0.9196 DELTA= -0.1540 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.3658387E-02 0.4009703E-01 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.7664325E-02 0.2695200E-01 T(K,K,K)= -0.1149649E-01 0.4042800E-01 ETA= 0.9194 DELTA= -0.7165 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1424938E-02 0.4032619E-01 ETA= 0.9194 DELTA= -0.0888 DETERMINANT FROM MATRIX INVERSION= 0.7476459E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.5699051E-07-0.1718564E-06 0.5699051E-07 0.1718564E-06 NORMALIZED R(K,K..K)= -0.8857160E-02 0.2670901E-01 T(K,K,K)= -0.1260256E-01 0.3913001E-01 ETA= 0.9221 DELTA= -0.7832 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.2503537E-02 0.3900320E-01 ETA= 0.9220 DELTA= -0.1556 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.3655142E-02 0.3891218E-01 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.7814070E-02 0.2630252E-01 T(K,K,K)= -0.1172110E-01 0.3945379E-01 ETA= 0.9214 DELTA= -0.7289 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1628505E-02 0.3934640E-01 ETA= 0.9213 DELTA= -0.1013 ----- ANGULAR MOMENTUM = 5----- DETERMINANT FROM MATRIX INVERSION= 0.8021605E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.3508796E-07-0.4568143E-07 0.3508796E-07 0.4568143E-07 NORMALIZED R(K,K..K)= -0.5453183E-02 0.7099564E-02 T(K,K,K)= -0.8064617E-02 0.1061794E-01 ETA= 0.9789 DELTA= -0.4721 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1749113E-02 0.1057882E-01 ETA= 0.9788 DELTA= -0.1024 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.2102280E-02 0.1051433E-01 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5373250E-02 0.7093284E-02 T(K,K,K)= -0.8059875E-02 0.1063993E-01 ETA= 0.9789 DELTA= -0.4718 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1744645E-02 0.1060091E-01 ETA= 0.9788 DELTA= -0.1021 DETERMINANT FROM MATRIX INVERSION= 0.8191425E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.3463963E-07-0.4731799E-07 0.3463963E-07 0.4731799E-07 NORMALIZED R(K,K..K)= -0.5383507E-02 0.7353908E-02 T(K,K,K)= -0.7957560E-02 0.1099286E-01 ETA= 0.9781 DELTA= -0.4661 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1646685E-02 0.1095595E-01 ETA= 0.9781 DELTA= -0.0965 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.2012535E-02 0.1089468E-01 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5302808E-02 0.7360641E-02 T(K,K,K)= -0.7954212E-02 0.1104096E-01 ETA= 0.9780 DELTA= -0.4660 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1643952E-02 0.1100419E-01 ETA= 0.9780 DELTA= -0.0963 ----- ANGULAR MOMENTUM = 6----- BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.2197903E-02 0.2049213E-02 T(K,K,K)= -0.3296855E-02 0.3073820E-02 ETA= 0.9939 DELTA= -0.1901 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.7834870E-03 0.3058128E-02 ETA= 0.9939 DELTA= -0.0452 T(K,K,K)= -0.3283368E-02 0.3074736E-02 ETA= 0.9939 DELTA= -0.1893 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.7700291E-03 0.3059111E-02 ETA= 0.9939 DELTA= -0.0444 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.8819190E-03 0.3028749E-02 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.2141555E-02 0.2106950E-02 T(K,K,K)= -0.3212332E-02 0.3160425E-02 ETA= 0.9937 DELTA= -0.1852 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.6995524E-03 0.3145009E-02 ETA= 0.9937 DELTA= -0.0403 T(K,K,K)= -0.3198824E-02 0.3160616E-02 ETA= 0.9937 DELTA= -0.1844 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.6860688E-03 0.3145268E-02 ETA= 0.9937 DELTA= -0.0396 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.8011813E-03 0.3117934E-02 ----- ANGULAR MOMENTUM = 7----- BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5837538E-03 0.6913028E-03 T(K,K,K)= -0.8756306E-03 0.1036954E-02 ETA= 0.9979 DELTA= -0.0503 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1845258E-03 0.1028743E-02 ETA= 0.9979 DELTA= -0.0106 T(K,K,K)= -0.8744209E-03 0.1036748E-02 ETA= 0.9979 DELTA= -0.0502 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1833245E-03 0.1028540E-02 ETA= 0.9979 DELTA= -0.0105 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.2238574E-03 0.1020485E-02 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5698138E-03 0.7163327E-03 T(K,K,K)= -0.8547208E-03 0.1074499E-02 ETA= 0.9979 DELTA= -0.0491 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1638183E-03 0.1066046E-02 ETA= 0.9979 DELTA= -0.0094 T(K,K,K)= -0.8534973E-03 0.1074216E-02 ETA= 0.9979 DELTA= -0.0490 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.1626033E-03 0.1065767E-02 ETA= 0.9979 DELTA= -0.0093 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.2046245E-03 0.1058502E-02 ----- ANGULAR MOMENTUM = 8----- BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.9842818E-04-0.3540971E-04 T(K,K,K)= -0.1476423E-03-0.5311457E-04 ETA= 1.0001 DELTA= -0.0085 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.8268414E-05-0.5252880E-04 ETA= 1.0001 DELTA= -0.0005 T(K,K,K)= -0.1476527E-03-0.5310191E-04 ETA= 1.0001 DELTA= -0.0085 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= -0.8278753E-05-0.5251629E-04 ETA= 1.0001 DELTA= -0.0005 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.6065833E-05-0.5281765E-04 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.8903943E-04 0.2095556E-04 T(K,K,K)= -0.1335591E-03 0.3143334E-04 ETA= 0.9999 DELTA= -0.0077 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= 0.5630411E-05 0.3105639E-04 ETA= 0.9999 DELTA= 0.0003 T(K,K,K)= -0.1335535E-03 0.3144457E-04 ETA= 0.9999 DELTA= -0.0077 NOW WITH EXACT COULOMB AFTER MATCHING T(K,K,K)= 0.5635943E-05 0.3106750E-04 ETA= 0.9999 DELTA= 0.0003 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = 0.4326176E-05 0.3127679E-04 TH-C.M. COS(CM) DSIG/DW-CM DS/DW(B.A.) T TH-LAB COS(LAB) DS/DW DS/DW(B.A.) REF(TH)-CM IMF SIGNUC NOFLIP NOFLIP-B POLAR FLIP FLIP-B 0.0 1.000 0.472E+13 0.472E+13 0. E+00 0. 1.000 0.587E+13 0.587E+13 -0.784 3.620 0.1372E+03 0.137E+03 0.472E+13 -0.124E-04 0. E+00 0. E+00 3.0 0.999 0.788E+03 0.836E+03 -0.211E+03 2.7 0.999 0.980E+03 0.104E+04 -0.782 3.602 0.1359E+03 0.136E+03 0.836E+03 -0.648E-03 0.152E-02 0.347E-02 6.0 0.995 0.188E+03 0.266E+03 -0.844E+03 5.4 0.996 0.234E+03 0.331E+03 -0.773 3.549 0.1319E+03 0.132E+03 0.266E+03 -0.129E-02 0.603E-02 0.138E-01 9.0 0.988 0.142E+03 0.223E+03 -0.190E+04 8.1 0.990 0.177E+03 0.277E+03 -0.758 3.462 0.1256E+03 0.126E+03 0.223E+03 -0.193E-02 0.133E-01 0.306E-01 12.0 0.978 0.125E+03 0.204E+03 -0.337E+04 10.8 0.982 0.155E+03 0.252E+03 -0.738 3.344 0.1173E+03 0.117E+03 0.204E+03 -0.256E-02 0.232E-01 0.533E-01 15.0 0.966 0.112E+03 0.187E+03 -0.525E+04 13.5 0.973 0.138E+03 0.231E+03 -0.714 3.199 0.1075E+03 0.107E+03 0.187E+03 -0.317E-02 0.351E-01 0.813E-01 18.0 0.951 0.994E+02 0.169E+03 -0.754E+04 16.2 0.960 0.122E+03 0.209E+03 -0.686 3.029 0.9651E+02 0.965E+02 0.169E+03 -0.377E-02 0.487E-01 0.114E+00 21.0 0.934 0.870E+02 0.152E+03 -0.102E+05 18.9 0.946 0.107E+03 0.186E+03 -0.654 2.840 0.8502E+02 0.850E+02 0.151E+03 -0.433E-02 0.633E-01 0.149E+00 24.0 0.914 0.749E+02 0.133E+03 -0.133E+05 21.6 0.930 0.916E+02 0.163E+03 -0.620 2.637 0.7346E+02 0.734E+02 0.133E+03 -0.484E-02 0.784E-01 0.187E+00 27.0 0.891 0.633E+02 0.116E+03 -0.168E+05 24.3 0.911 0.771E+02 0.141E+03 -0.584 2.424 0.6225E+02 0.622E+02 0.116E+03 -0.529E-02 0.932E-01 0.225E+00 30.0 0.866 0.526E+02 0.989E+02 -0.206E+05 27.0 0.891 0.637E+02 0.120E+03 -0.546 2.205 0.5173E+02 0.516E+02 0.986E+02 -0.563E-02 0.107E+00 0.263E+00 33.0 0.839 0.428E+02 0.831E+02 -0.249E+05 29.7 0.868 0.516E+02 0.100E+03 -0.509 1.986 0.4215E+02 0.420E+02 0.828E+02 -0.581E-02 0.120E+00 0.298E+00 36.0 0.809 0.342E+02 0.688E+02 -0.294E+05 32.5 0.844 0.410E+02 0.825E+02 -0.471 1.770 0.3367E+02 0.335E+02 0.685E+02 -0.575E-02 0.130E+00 0.331E+00 39.0 0.777 0.268E+02 0.561E+02 -0.343E+05 35.2 0.817 0.319E+02 0.669E+02 -0.434 1.560 0.2635E+02 0.262E+02 0.558E+02 -0.533E-02 0.139E+00 0.360E+00 42.0 0.743 0.205E+02 0.451E+02 -0.396E+05 38.0 0.788 0.243E+02 0.533E+02 -0.397 1.359 0.2019E+02 0.200E+02 0.447E+02 -0.434E-02 0.145E+00 0.384E+00 45.0 0.707 0.154E+02 0.356E+02 -0.451E+05 40.7 0.758 0.181E+02 0.418E+02 -0.362 1.169 0.1512E+02 0.150E+02 0.352E+02 -0.249E-02 0.148E+00 0.403E+00 48.0 0.669 0.113E+02 0.277E+02 -0.510E+05 43.5 0.725 0.131E+02 0.323E+02 -0.328 0.992 0.1106E+02 0.109E+02 0.273E+02 0.712E-03 0.148E+00 0.417E+00 51.0 0.629 0.806E+01 0.212E+02 -0.571E+05 46.3 0.691 0.932E+01 0.245E+02 -0.295 0.829 0.7887E+01 0.774E+01 0.207E+02 0.606E-02 0.146E+00 0.425E+00 54.0 0.588 0.560E+01 0.159E+02 -0.635E+05 49.1 0.655 0.642E+01 0.182E+02 -0.264 0.680 0.5463E+01 0.532E+01 0.155E+02 0.149E-01 0.142E+00 0.427E+00 57.0 0.545 0.377E+01 0.117E+02 -0.702E+05 51.9 0.617 0.429E+01 0.133E+02 -0.235 0.546 0.3663E+01 0.353E+01 0.113E+02 0.295E-01 0.136E+00 0.424E+00 60.0 0.500 0.246E+01 0.843E+01 -0.771E+05 54.7 0.578 0.277E+01 0.950E+01 -0.207 0.425 0.2365E+01 0.224E+01 0.802E+01 0.541E-01 0.129E+00 0.417E+00 63.0 0.454 0.154E+01 0.594E+01 -0.841E+05 57.5 0.537 0.171E+01 0.663E+01 -0.180 0.319 0.1463E+01 0.134E+01 0.554E+01 0.966E-01 0.120E+00 0.406E+00 66.0 0.407 0.921E+00 0.409E+01 -0.914E+05 60.4 0.494 0.102E+01 0.452E+01 -0.155 0.226 0.8636E+00 0.753E+00 0.370E+01 0.172E+00 0.111E+00 0.391E+00 69.0 0.358 0.534E+00 0.274E+01 -0.989E+05 63.3 0.450 0.584E+00 0.300E+01 -0.132 0.146 0.4879E+00 0.387E+00 0.237E+01 0.309E+00 0.101E+00 0.374E+00 72.0 0.309 0.309E+00 0.180E+01 -0.106E+06 66.1 0.405 0.334E+00 0.195E+01 -0.111 0.077 0.2726E+00 0.182E+00 0.145E+01 0.543E+00 0.905E-01 0.354E+00 75.0 0.259 0.195E+00 0.117E+01 -0.114E+06 69.0 0.358 0.209E+00 0.125E+01 -0.091 0.019 0.1674E+00 0.869E-01 0.836E+00 0.848E+00 0.805E-01 0.332E+00 78.0 0.208 0.154E+00 0.770E+00 -0.122E+06 71.9 0.310 0.164E+00 0.816E+00 -0.074 -0.029 0.1333E+00 0.625E-01 0.460E+00 0.998E+00 0.708E-01 0.310E+00 81.0 0.156 0.157E+00 0.543E+00 -0.130E+06 74.8 0.261 0.165E+00 0.569E+00 -0.058 -0.068 0.1415E+00 0.798E-01 0.256E+00 0.865E+00 0.616E-01 0.287E+00 84.0 0.105 0.183E+00 0.437E+00 -0.138E+06 77.8 0.212 0.189E+00 0.453E+00 -0.044 -0.099 0.1711E+00 0.118E+00 0.173E+00 0.646E+00 0.531E-01 0.264E+00 87.0 0.052 0.216E+00 0.413E+00 -0.146E+06 80.7 0.161 0.221E+00 0.423E+00 -0.032 -0.123 0.2079E+00 0.163E+00 0.171E+00 0.473E+00 0.454E-01 0.242E+00 90.0 -0.000 0.249E+00 0.441E+00 -0.154E+06 83.7 0.110 0.252E+00 0.447E+00 -0.022 -0.141 0.2432E+00 0.205E+00 0.221E+00 0.355E+00 0.385E-01 0.220E+00 93.0 -0.052 0.275E+00 0.500E+00 -0.162E+06 86.7 0.058 0.276E+00 0.500E+00 -0.014 -0.154 0.2720E+00 0.240E+00 0.300E+00 0.276E+00 0.324E-01 0.199E+00 96.0 -0.105 0.294E+00 0.572E+00 -0.170E+06 89.7 0.005 0.291E+00 0.567E+00 -0.007 -0.163 0.2921E+00 0.265E+00 0.393E+00 0.221E+00 0.271E-01 0.180E+00 99.0 -0.156 0.304E+00 0.649E+00 -0.178E+06 92.7 -0.047 0.298E+00 0.635E+00 -0.003 -0.168 0.3034E+00 0.281E+00 0.488E+00 0.181E+00 0.225E-01 0.161E+00 102.0 -0.208 0.307E+00 0.723E+00 -0.186E+06 95.8 -0.100 0.297E+00 0.700E+00 0.000 -0.170 0.3068E+00 0.288E+00 0.579E+00 0.152E+00 0.187E-01 0.144E+00 105.0 -0.259 0.304E+00 0.790E+00 -0.194E+06 98.8 -0.153 0.291E+00 0.756E+00 0.002 -0.170 0.3037E+00 0.288E+00 0.661E+00 0.129E+00 0.155E-01 0.129E+00 108.0 -0.309 0.296E+00 0.848E+00 -0.202E+06 101.9 -0.206 0.280E+00 0.802E+00 0.002 -0.168 0.2958E+00 0.283E+00 0.733E+00 0.112E+00 0.128E-01 0.115E+00 111.0 -0.358 0.285E+00 0.896E+00 -0.209E+06 105.0 -0.258 0.266E+00 0.838E+00 0.001 -0.166 0.2846E+00 0.274E+00 0.794E+00 0.981E-01 0.106E-01 0.102E+00 114.0 -0.407 0.272E+00 0.934E+00 -0.217E+06 108.1 -0.310 0.251E+00 0.863E+00 -0.001 -0.162 0.2714E+00 0.263E+00 0.844E+00 0.870E-01 0.882E-02 0.898E-01 117.0 -0.454 0.258E+00 0.961E+00 -0.224E+06 111.2 -0.362 0.236E+00 0.879E+00 -0.004 -0.158 0.2572E+00 0.250E+00 0.882E+00 0.781E-01 0.733E-02 0.791E-01 120.0 -0.500 0.244E+00 0.979E+00 -0.231E+06 114.4 -0.412 0.221E+00 0.886E+00 -0.007 -0.154 0.2426E+00 0.237E+00 0.910E+00 0.710E-01 0.609E-02 0.693E-01 123.0 -0.545 0.230E+00 0.988E+00 -0.238E+06 117.5 -0.462 0.206E+00 0.885E+00 -0.011 -0.149 0.2282E+00 0.223E+00 0.928E+00 0.655E-01 0.506E-02 0.605E-01 126.0 -0.588 0.216E+00 0.989E+00 -0.245E+06 120.7 -0.510 0.192E+00 0.876E+00 -0.016 -0.144 0.2142E+00 0.210E+00 0.936E+00 0.612E-01 0.421E-02 0.524E-01 129.0 -0.629 0.204E+00 0.982E+00 -0.251E+06 123.9 -0.558 0.179E+00 0.861E+00 -0.020 -0.139 0.2010E+00 0.197E+00 0.936E+00 0.580E-01 0.349E-02 0.452E-01 132.0 -0.669 0.192E+00 0.968E+00 -0.257E+06 127.1 -0.603 0.167E+00 0.841E+00 -0.025 -0.134 0.1886E+00 0.186E+00 0.929E+00 0.556E-01 0.289E-02 0.387E-01 135.0 -0.707 0.181E+00 0.948E+00 -0.263E+06 130.3 -0.647 0.156E+00 0.816E+00 -0.030 -0.129 0.1773E+00 0.175E+00 0.916E+00 0.537E-01 0.238E-02 0.329E-01 138.0 -0.743 0.172E+00 0.925E+00 -0.269E+06 133.6 -0.689 0.146E+00 0.789E+00 -0.035 -0.124 0.1672E+00 0.165E+00 0.897E+00 0.522E-01 0.196E-02 0.277E-01 141.0 -0.777 0.163E+00 0.898E+00 -0.274E+06 136.8 -0.729 0.138E+00 0.760E+00 -0.040 -0.119 0.1584E+00 0.157E+00 0.875E+00 0.507E-01 0.160E-02 0.231E-01 144.0 -0.809 0.156E+00 0.871E+00 -0.279E+06 140.1 -0.767 0.131E+00 0.731E+00 -0.045 -0.114 0.1511E+00 0.150E+00 0.852E+00 0.492E-01 0.131E-02 0.191E-01 147.0 -0.839 0.151E+00 0.843E+00 -0.283E+06 143.4 -0.802 0.126E+00 0.703E+00 -0.050 -0.109 0.1453E+00 0.144E+00 0.828E+00 0.473E-01 0.106E-02 0.155E-01 150.0 -0.866 0.147E+00 0.817E+00 -0.288E+06 146.7 -0.835 0.122E+00 0.676E+00 -0.054 -0.105 0.1410E+00 0.140E+00 0.804E+00 0.449E-01 0.853E-03 0.125E-01 153.0 -0.891 0.145E+00 0.793E+00 -0.291E+06 150.0 -0.866 0.119E+00 0.652E+00 -0.058 -0.102 0.1382E+00 0.137E+00 0.783E+00 0.421E-01 0.681E-03 0.990E-02 156.0 -0.914 0.143E+00 0.771E+00 -0.295E+06 153.3 -0.893 0.117E+00 0.631E+00 -0.061 -0.099 0.1366E+00 0.136E+00 0.764E+00 0.387E-01 0.536E-03 0.766E-02 159.0 -0.934 0.143E+00 0.753E+00 -0.298E+06 156.6 -0.918 0.117E+00 0.613E+00 -0.064 -0.097 0.1361E+00 0.136E+00 0.748E+00 0.348E-01 0.412E-03 0.577E-02 162.0 -0.951 0.144E+00 0.739E+00 -0.301E+06 159.9 -0.939 0.116E+00 0.598E+00 -0.067 -0.095 0.1364E+00 0.136E+00 0.734E+00 0.305E-01 0.307E-03 0.418E-02 165.0 -0.966 0.145E+00 0.727E+00 -0.303E+06 163.3 -0.958 0.117E+00 0.587E+00 -0.069 -0.094 0.1374E+00 0.137E+00 0.724E+00 0.258E-01 0.217E-03 0.288E-02 168.0 -0.978 0.146E+00 0.719E+00 -0.305E+06 166.6 -0.973 0.118E+00 0.578E+00 -0.071 -0.094 0.1386E+00 0.138E+00 0.717E+00 0.209E-01 0.141E-03 0.183E-02 171.0 -0.988 0.148E+00 0.713E+00 -0.306E+06 169.9 -0.985 0.119E+00 0.572E+00 -0.073 -0.093 0.1399E+00 0.140E+00 0.712E+00 0.158E-01 0.810E-04 0.102E-02 174.0 -0.995 0.149E+00 0.709E+00 -0.307E+06 173.3 -0.993 0.119E+00 0.568E+00 -0.074 -0.093 0.1410E+00 0.141E+00 0.708E+00 0.106E-01 0.366E-04 0.454E-03 177.0 -0.999 0.150E+00 0.707E+00 -0.308E+06 176.6 -0.998 0.120E+00 0.566E+00 -0.074 -0.093 0.1418E+00 0.142E+00 0.707E+00 0.532E-02 0.923E-05 0.113E-03 180.0 -1.000 0.150E+00 0.706E+00 -0.308E+06 180.0 -1.000 0.120E+00 0.565E+00 -0.074 -0.093 0.1420E+00 0.142E+00 0.706E+00 0.102E-03 0.405E-15 0.495E-14 TOTAL CROSS-SECTION = 324.098 ELAST , INEL CROSS-SECTION = 116.194 207.905 CROSS-SECTIONS IN MILLIBARNS --------- ENERGY(KINETIC),GAMCOUL= 200.0 0.147E-01 BORN APPROX TOTAL = 422.004 ELASTIC SIGMA= 227.450 SIG(TH) 200.0 2 3 0 101733003 0 0 0 0 0 3 0 0 1 0 0.10E+04+ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.428 0.208 0.674 0.456 0.134 0.699 . . . . . . . .+ . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.32E+03. . . . . . . . . . . . . . . . . . . . . . + . . . . . . . . . . . . . 000++ . . . . . . 0.10E+03. . 0+. . . . . . . . . . . . . . . . . . . . . . . . . . . . . ++ . . . . . . . + . . . . . . . +. . . . . . . + . . . . . . .+ . . . . . 0.32E+02. . + . . . . . . . + . . . . . . . . . . . . . . + . . . . . . . + . . . . . . . . . . . . 0.10E+02. . . . . . . . + . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . + . . . . . . . . . . . . . . + . . . . . . . . . . . . 0.32E+01. . +. . . . . . . . . . . . . . + . . . . . . . . . . . . . .+ . . . . . . .0 . . . . 0.10E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . + . . . . . . . 0 . . . . . . . . . . . . . . + . . . . . . . 0 . . . . 0.32E+00. . . . . . . . . . + .++++++++ . . . . . . ++0 ++++ . . . . . 0+ + 0 . 0+++ . . . . . ++ 0. . 0+++++ ++++ . . . . . 00++++++0000 0.10E+00. . . . . . . . . . . . . . 0 . . . . . . . . . . . . . . . . . . . 0 . . . . . . . 0 . . . . . . . 0 . . . . . . . . . . . . . . . . . . 0.32E-01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.10E-01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . SIG(TH) 200.0 2 3 0 101733003 0 0 0 0 0 3 0 0 1 0 0.10E+02+++++++++++++++++ . . . . . . . . . . . . . . . . . . . . . . 0.428 0.208 0.674 0.456 0.134 0.699 . . . . . . . . . + . . . . . . . . . . . . . . + . . . . . . . . . . . . 0.32E+01. . +. . . . . . . . . . . . . . + . . . . . . . . . . . . . .+ . . . . . . . . . . . 0.10E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . + . . . . . . . . . . . . . . . . . . . . . + . . . . . . . . . . . 0.32E+00. . . . . . . . . . + .++++++++ . . . . . . ++ ++++ . . . . . + + . . +++ . . . . 00 . ++ . . +++++ ++++ . . 000 0000 . . .++++++ . 0.10E+00. . . . . 00. . . . .000. . . . . . . . . . . . . . . . . . . . 0. . 0 . . . . . 0 . . 00 . . . . . 0 . . 0 . . . . . 0 . . 0 . . . . . . . 00 . . . 0.32E-01. 0 . . .0 . . . . . . . 0 . . . . 0 . . . 0 . . . . . . . 0 . . . . . . . 0 . . . . 0 . . . 0 . . . 0.10E-01. . . . . . . . . . . . . . . . . . .0. . . . . . . . . . . . . . . . 0 . . . . . . . 0. . . . 0 . . . 0 . . . . . . .0 . . . . . . . 0 . . 0.32E-02. . . . . 0 . . . . . . . 0 . . . . . . . 0 . . . . . . . 0 . . .0 . . . . 0 . . . . . . . 0 . . 0.10E-02. . . . . . . . . . . . . . . . . . . . . . . . .0. . . . . . . . . . . 0 . . . . . . . . . . . . . .0 . . . . . . . 0 . . . . . . . 0 . 0.32E-03. . . . . . . . . . . . . 0 . . . . . . . 0 . . . . . . . . . . . . . . . . . . . . . 0 . 0.10E-030 . . . . . . . . . . . . . . . . . . . . . . . . . . . .0000 POLAR 200.0 2 3 0 101733003 0 0 0 0 0 3 0 0 1 0 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.428 0.208 0.674 0.456 0.134 0.699 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.15E+01. . . . . . . . . . + . . . . . . . . . . . . . . . . . . . . . + + . . . . . . . . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . + . . . . . . . . . . . . . . + . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +. . . . . . . . . . . . . . . . . . . . . + . . . . . . + . . . . 0.15E+01. . . .+ . . . . . . . + . . . . . . + . + . . . . . . . ++ . . . . . .+ . +++ . . . . . + . +++++++++++++ . 0.15E+01. . ++++. . . . +++++++++ ---------------- . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.15E+01. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . EOF IN MAIN