sample run for new form factor, cut down somewhat for communication. program= LPOTT input= in.he3.hadj Tue Feb 11 11:23:09 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 2:42.0 user 2:33.9 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 6.0000 2 3 3 101733001 0 0 0 0 0 3 0 0 1 0 NIFTY( 1)= 3 PI CEX 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)= 1 +FC+PHASE 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 PI-PLUS, PI-MINUS AND THEN CEX(PI- TO PI0) 3 CALCS ********** 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 0.9205E-08 0. E+00 -0.164E-08 0. E+00 0.1034E-06 -0.499E-07 0. E+00 0.7912E+01 0.5200E-07 0. E+00 -0.742E-09 0. E+00 0.3011E-06 -0.563E-07 0. E+00 0.1999E+02 0.1497E-06 0. E+00 0.935E-09 0. E+00 0.8261E-06 -0.896E-07 0. E+00 0.3868E+02 0.2829E-06 0. E+00 0.350E-08 0. E+00 0.1532E-05 -0.156E-06 0. E+00 0.6556E+02 0.4496E-06 0. E+00 0.706E-08 0. E+00 0.2442E-05 -0.241E-06 0. E+00 0.1032E+03 0.6085E-06 0. E+00 0.116E-07 0. E+00 0.3410E-05 -0.325E-06 0. E+00 0.1556E+03 0.6755E-06 0. E+00 0.168E-07 0. E+00 0.4119E-05 -0.369E-06 0. E+00 0.2294E+03 0.5526E-06 0. E+00 0.211E-07 0. E+00 0.4153E-05 -0.336E-06 0. E+00 0.3359E+03 0.1391E-06 0. E+00 0.213E-07 0. E+00 0.3270E-05 -0.225E-06 0. E+00 0.4952E+03 -0.3405E-06 0. E+00 0.140E-07 0. E+00 0.1667E-05 -0.923E-07 0. E+00 0.7467E+03 -0.2211E-06 0. E+00 0.333E-08 0. E+00 0.2036E-06 -0.139E-07 0. E+00 0.1175E+04 0.1515E-07 0. E+00 0.485E-10 0. E+00 -0.5552E-08 -0.136E-09 0. E+00 0.1992E+04 0.3996E-10 0. E+00 0.452E-16 0. E+00 0.8916E-16 -0.892E-16 0. E+00 0.3854E+04 -0.1857E-13 0. E+00 0.259E-42 0. E+00 0.3595E-42 -0.360E-42 0. E+00 0.9739E+04 0.1060E-32 0. E+00 0. E+00 0. E+00 0. E+00 0. E+00 0. E+00 0.5210E+05 0.7683E-71 0. E+00 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 0.3784E-06 0. E+00 0.220E-07 0. E+00 0.3816E-05 -0.288E-06 0. E+00 DETERMINANT FROM MATRIX INVERSION= 0.5375282E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1776123E-05-0.2752220E-05 0.1776123E-05 0.2752220E-05 NORMALIZED R(K,K..K)= -0.2760356E+00 0.4277353E+00 T(K,K,K)= -0.1958047E+00 0.4872416E+00 ETA= 0.3924 DELTA= -43.1360 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1874988E+00 0.4904978E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.1069329E+00 0.4917004E+00 T(K,K,K)= -0.1603994E+00 0.7375505E+00 ETA= 0.5733 DELTA= -72.9859 DETERMINANT FROM MATRIX INVERSION= 0.5375282E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1776123E-05-0.2752220E-05 0.1776123E-05 0.2752220E-05 NORMALIZED R(K,K..K)= -0.2760356E+00 0.4277353E+00 T(K,K,K)= -0.1958047E+00 0.4872416E+00 ETA= 0.3924 DELTA= -43.1360 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1874988E+00 0.4904978E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.1069329E+00 0.4917004E+00 T(K,K,K)= -0.1603994E+00 0.7375505E+00 ETA= 0.5733 DELTA= -72.9859 ----- ANGULAR MOMENTUM = 1----- DETERMINANT FROM MATRIX INVERSION= 0.5244084E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.1273820E-05-0.3707490E-05 0.1273820E-05 0.3707490E-05 NORMALIZED R(K,K..K)= -0.1979702E+00 0.5761983E+00 T(K,K,K)= -0.1176716E+00 0.5631226E+00 ETA= 0.2671 DELTA= -59.1052 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1246712E+00 0.5616144E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5880749E-01 0.5931294E+00 T(K,K,K)= -0.8821124E-01 0.8896940E+00 ETA= 0.7991 DELTA= -83.6227 DETERMINANT FROM MATRIX INVERSION= 0.5722496E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.7639641E-06-0.2790874E-05 0.7639641E-06 0.2790874E-05 NORMALIZED R(K,K..K)= -0.1187312E+00 0.4337428E+00 T(K,K,K)= -0.8604894E-01 0.4609131E+00 ETA= 0.1890 DELTA= -32.7853 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.9177885E-01 0.4598065E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5725622E-01 0.4413792E+00 T(K,K,K)= -0.8588434E-01 0.6620688E+00 ETA= 0.3668 DELTA= -76.0399 ----- ANGULAR MOMENTUM = 2----- DETERMINANT FROM MATRIX INVERSION= 0.5519907E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.4662895E-06-0.1882022E-05 0.4662895E-06 0.1882022E-05 NORMALIZED R(K,K..K)= -0.7246823E-01 0.2924939E+00 T(K,K,K)= -0.6486625E-01 0.3430899E+00 ETA= 0.3396 DELTA= -11.2300 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.7416129E-01 0.3412014E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.9697285E-03 0.2869856E+00 T(K,K,K)= -0.1454593E-02 0.4304784E+00 ETA= 0.1391 DELTA= -0.5993 DETERMINANT FROM MATRIX INVERSION= 0.6136558E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.3197069E-06-0.1569611E-05 0.3197069E-06 0.1569611E-05 NORMALIZED R(K,K..K)= -0.4968714E-01 0.2439405E+00 T(K,K,K)= -0.4808878E-01 0.2960754E+00 ETA= 0.4190 DELTA= -6.6344 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.5611300E-01 0.2946599E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= -0.5823591E-02 0.2424686E+00 T(K,K,K)= -0.8735387E-02 0.3637030E+00 ETA= 0.2732 DELTA= -1.8336 ----- ANGULAR MOMENTUM = 3----- DETERMINANT FROM MATRIX INVERSION= 0.6034346E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.3162553E-07-0.6414572E-06 0.3162553E-07 0.6414572E-06 NORMALIZED R(K,K..K)= -0.4915071E-02 0.9969185E-01 T(K,K,K)= -0.6096357E-02 0.1360088E+00 ETA= 0.7281 DELTA= -0.4798 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.1112036E-01 0.1356904E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= 0.6945931E-02 0.9437797E-01 T(K,K,K)= 0.1041890E-01 0.1415669E+00 ETA= 0.7172 DELTA= 0.8325 DETERMINANT FROM MATRIX INVERSION= 0.6497909E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM) 0.2303173E-07-0.5756753E-06 0.2303173E-07 0.5756753E-06 NORMALIZED R(K,K..K)= -0.3579468E-02 0.8946838E-01 T(K,K,K)= -0.4523513E-02 0.1231966E+00 ETA= 0.7537 DELTA= -0.3439 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = -0.9074930E-02 0.1229451E+00 BORN APPROXIMATION NORMALIZED R(K,K..K)= 0.5553822E-02 0.8614577E-01 T(K,K,K)= 0.8330733E-02 0.1292187E+00 ETA= 0.7417 DELTA= 0.6436 ----- ANGULAR MOMENTUM = 4----- DETERMINANT FROM MATRIX INVERSION= 0.6901416E+00 UNNORMALIZED R MATRIX(RE,IM,RE,-IM)-0.1387702E-07-0.1792553E-06-0.1387702E-07 0.1792553E-06 NORMALIZED R(K,K..K)= 0.2156692E-02 0.2785890E-01 T(K,K,K)= 0.3062037E-02 0.4066215E-01 ETA= 0.9187 DELTA= 0.1910 COULOMB PHASE MODIFIED NUCLEAR AMPLITUDE T(K,K.K) = 0.1256765E-02 0.4075791E-01 BORN APPROXIMATION NORMALIZED R(K,K..K)= 0.3304936E-02 0.26952