mocadi 1.34 (2.0) Fri Oct 22 18:32:24 2004 ********************** beam ************************ num of atoms= 10000 mode x,a = 4 energy = 1000.0000 MeV/A max dx = 0.1000 cm time = 0.0000 s max da = 5.0000 mrad mass = 207 r12 = 0.0000 protons = 82 ver x = 0.0000 cm electrons = 0 ver a = 0.0000 mrad mode y,b = 4 mode e,t = 4 max dy = 0.1500 cm max de = 0.1000 % max db = 3.3000 mrad max dt = 0.0000 s r34 = 0.0000 r56 = 0.0000 ver y = 0.0000 cm ver e = 0.0000 ver b = 0.0000 mrad ver t = 0.0000 s ******************** matter ************************ Ad = 48 Zd = 22 density = 4540.0000 mg/cm**3 dmode = 3 geo = 0 (homogeneous ) T0v (Thick) = 4.5000 mg/cm**2 dx = 0.0000e+00 cm dy = 0.0000e+00 cm f_winkel = 0.0000e+00 rad f_klwi = 1.0000e+00 f_enstr = 1.0000e+00 mode_u = 0 du0 = 0.0000e+00 100% du1 = 0.0000e+00 100% du2 = 0.0000e+00 100% ******************** matter ************************ Ad = 27 Zd = 13 density = 2700.0000 mg/cm**3 dmode = 3 geo = 0 (homogeneous ) T0v (Thick) = 8.9000 mg/cm**2 dx = 0.0000e+00 cm dy = 0.0000e+00 cm f_winkel = 0.0000e+00 rad f_klwi = 1.0000e+00 f_enstr = 1.0000e+00 mode_u = 0 du0 = 0.0000e+00 100% du1 = 0.0000e+00 100% du2 = 0.0000e+00 100% ********************** target *********************** At = 9 Zt = 4 density = 1850.0000mg/cm**3 Af = 177.0000 Zf = 73.0000 mode = 5 thickness = 1623.0000 mg/cm**2 A_ref = 0.0000 Z_ref = 0.0000e+00 energy_ref = 0.0000e+00 MeV thickness = 1.6230e+03mg/cm**2 range = 1.1990e+04mg/cm**2 f_klwi = 1.0000e+00 f_enstr = 1.0000e+00 goldhaber = 1.0000e+00 f_wico = 1.0000e+00 f_kauf = 1.0000e+00 f_spalt = 0.0000e+00 f_lr = 6.5190e+04 ***************************************************** *********** erwartungswerte 1 ******************** ***************************************************** 1 ******************** matter ************************ Ad = 93 Zd = 41 density = 8570.0000 mg/cm**3 dmode = 3 geo = 0 (homogeneous ) T0v (Thick) = 221.0000 mg/cm**2 dx = 0.0000e+00 cm dy = 0.0000e+00 cm f_winkel = 0.0000e+00 rad f_klwi = 1.0000e+00 f_enstr = 1.0000e+00 mode_u = 0 du0 = 0.0000e+00 100% du1 = 0.0000e+00 100% du2 = 0.0000e+00 100% ***************************************************** *********** erwartungswerte 2 ******************** ***************************************************** 2 ********************** wedge *********************** Aw = 27 Zw = 13 density = 2700.0000 mg/cm**3 T0v = 5.5470e+03 mg/cm**2 T1v = -1.2283e+01 mg/cm**3 T2v = 0.0000e+00 mg/cm**4 mode = 6.000000 A_ref = 0.0000e+00 Z_ref = 0.0000e+00 energy_ref = 0.0000e+00 T0 = 5.5470e+03 mg/cm**2 T1 = -1.2283e+01 mg/cm**3 T2 = 0.0000e+00 mg/cm**4 d_klwi = 1.0000e+00 d_enstr = 1.0000e+00 d_xxxx = -1.0000e+00 d_xxxxx = 1.0000e+00 mode_u = 0 du0 = 0.0000e+00 100% du1 = 0.0000e+00 100% du2 = 0.0000e+00 100% lr = 2.4010e+04 mg/cm**2 ***************************************************** *********** erwartungswerte 3 ******************** ***************************************************** 3 ********************** end *********************** ************************************************************************** i_fmax = 1 primary beam : mass = 207.9766, charge = 82, energy = 1.0000e+03 MeV/u target: mass = 9, charge = 4, thickness = 1.6230e+03 mg/cm**2 reaction loss: nuclear = 3.0460e+03 mb, electromagnetic = 2.8661e+01 mb survival ratio = 0.71612352 ************************************************************************** fragment 1: mass =176.94446, charge = 73 production reaction: EPAX1 = 1.0779e+00 mb, ED = 0.0000e+00 reaction loss: nuclear = 2.8118e+03 mb, electromagnetic = 2.3609e+01 mb Overall production rate = 8.4926e-05, ( 1.0000e+00 of fragment1) ************************************************************************** ********* erwartungswerte 1 ********************************************* (1) i_fragment = 1 tr: teilchen = 10000 wi: teilchen = 9987.601 ( 9987.601) tr: opt = 1 tr: total = 0.99876 yield = 8.48208e-05 particle/incident particle z = 0.0000cm < x >= 7.038454e-04 cm sigma x = 5.021103e-02 cm max x = 9.966965e-02 cm min x = -9.998163e-02 cm < a >= -3.166960e-02 mrad sigma a = 2.587649e+00 mrad max a = 6.643482e+00 mrad min a = -6.599198e+00 mrad < y >= -7.063007e-04 cm sigma y = 7.527999e-02 cm max y = 1.490447e-01 cm min y = -1.498863e-01 cm < b >= -6.060357e-03 mrad sigma b = 1.779242e+00 mrad max b = 5.057483e+00 mrad min b = -4.907976e+00 mrad < energie >= 8.960567e+02 MeV/u sigma energie = 2.281270e+00 MeV/u max energie = 9.015581e+02 MeV/u min energie = 8.904443e+02 MeV/u < time >= 0.000000e+00 mu s sigma time = 0.000000e+00 mu s max time = 0.000000e+00 mu s min time = 0.000000e+00 mu s < mass >= 1.769445e+02 u sigma mass = 9.155533e-05 u max mass = 1.769445e+02 u min mass = 1.769445e+02 u < z >= 7.300000e+01 sigma z = 0.000000e+00 max z = 7.300000e+01 min z = 7.300000e+01 < electrons >= 0.000000e+00 sigma electrons = 0.000000e+00 max electrons = 0.000000e+00 min electrons = 0.000000e+00 < nf/nsf >= 9.987601e-01 sigma nf/nsf = 0.000000e+00 max nf/nsf = 9.987602e-01 min nf/nsf = 9.987601e-01 < tof-tim >= 0.000000e+00 mu s sigma tof-tim = 0.000000e+00 mu s max tof-tim = 0.000000e+00 mu s min tof-tim = 0.000000e+00 mu s < delta e >= 1.900844e+04 MeV sigma delta e = 1.318077e+03 MeV max delta e = 2.148066e+04 MeV min delta e = 1.657496e+04 MeV < brho >= 1.271278e+01 Tm sigma brho = 2.143850e-02 Tm max brho = 1.276445e+01 Tm min brho = 1.266001e+01 Tm ********* erwartungswerte 2 ********************************************* (2) i_fragment = 1 tr: teilchen = 10000 wi: teilchen = 9878.815 ( 9878.815) tr: opt = 1 tr: total = 0.987882 yield = 8.38969e-05 particle/incident particle z = 0.0000cm < x >= 7.034441e-04 cm sigma x = 5.021144e-02 cm max x = 9.967405e-02 cm min x = -9.996871e-02 cm < a >= -3.071581e-02 mrad sigma a = 2.647756e+00 mrad max a = 7.427728e+00 mrad min a = -8.500557e+00 mrad < y >= -7.063743e-04 cm sigma y = 7.528042e-02 cm max y = 1.490569e-01 cm min y = -1.498851e-01 cm < b >= -5.454811e-03 mrad sigma b = 1.894456e+00 mrad max b = 5.783127e+00 mrad min b = -5.290081e+00 mrad < energie >= 8.852620e+02 MeV/u sigma energie = 2.288253e+00 MeV/u max energie = 8.907565e+02 MeV/u min energie = 8.796249e+02 MeV/u < time >= 0.000000e+00 mu s sigma time = 0.000000e+00 mu s max time = 0.000000e+00 mu s min time = 0.000000e+00 mu s < mass >= 1.769445e+02 u sigma mass = 9.155533e-05 u max mass = 1.769445e+02 u min mass = 1.769445e+02 u < z >= 7.300000e+01 sigma z = 0.000000e+00 max z = 7.300000e+01 min z = 7.300000e+01 < electrons >= 0.000000e+00 sigma electrons = 0.000000e+00 max electrons = 0.000000e+00 min electrons = 0.000000e+00 < nf/nsf >= 9.878815e-01 sigma nf/nsf = 2.047771e-06 max nf/nsf = 9.878866e-01 min nf/nsf = 9.878766e-01 < tof-tim >= 0.000000e+00 mu s sigma tof-tim = 0.000000e+00 mu s max tof-tim = 0.000000e+00 mu s min tof-tim = 0.000000e+00 mu s < delta e >= 1.910068e+03 MeV sigma delta e = 2.068178e+01 MeV max delta e = 1.990416e+03 MeV min delta e = 1.829919e+03 MeV < brho >= 1.261123e+01 Tm sigma brho = 2.154925e-02 Tm max brho = 1.266295e+01 Tm min brho = 1.255812e+01 Tm ********* erwartungswerte 3 ********************************************* (3) i_fragment = 1 tr: teilchen = 10000 wi: teilchen = 5872.032 ( 5872.032) tr: opt = 1 tr: total = 0.587203 yield = 4.98689e-05 particle/incident particle z = 0.0000cm < x >= 7.277025e-04 cm sigma x = 5.027944e-02 cm max x = 1.039864e-01 cm min x = -1.024100e-01 cm < a >= -7.000767e-03 mrad sigma a = 3.696354e+00 mrad max a = 1.421779e+01 mrad min a = -1.217829e+01 mrad < y >= -6.926182e-04 cm sigma y = 7.536684e-02 cm max y = 1.522615e-01 cm min y = -1.517743e-01 cm < b >= 7.943121e-03 mrad sigma b = 3.154457e+00 mrad max b = 1.312286e+01 mrad min b = -1.201659e+01 mrad < energie >= 5.390880e+02 MeV/u sigma energie = 2.697019e+00 MeV/u max energie = 5.458974e+02 MeV/u min energie = 5.317143e+02 MeV/u < time >= 8.396414e-05 mu s sigma time = 6.741511e-08 mu s max time = 8.413084e-05 mu s min time = 8.380316e-05 mu s < mass >= 1.769445e+02 u sigma mass = 9.155533e-05 u max mass = 1.769445e+02 u min mass = 1.769445e+02 u < z >= 7.300000e+01 sigma z = 0.000000e+00 max z = 7.300000e+01 min z = 7.300000e+01 < electrons >= 0.000000e+00 sigma electrons = 0.000000e+00 max electrons = 0.000000e+00 min electrons = 0.000000e+00 < nf/nsf >= 5.872032e-01 sigma nf/nsf = 4.218946e-05 max nf/nsf = 5.873148e-01 min nf/nsf = 5.870852e-01 < tof-tim >= 8.396414e-05 mu s sigma tof-tim = 6.741511e-08 mu s max tof-tim = 8.413084e-05 mu s min tof-tim = 8.380316e-05 mu s < delta e >= 6.125358e+04 MeV sigma delta e = 1.239262e+02 MeV max delta e = 6.175993e+04 MeV min delta e = 6.082383e+04 MeV < brho >= 9.200593e+00 Tm sigma brho = 2.818048e-02 Tm max brho = 9.271651e+00 Tm min brho = 9.123435e+00 Tm ***************************************************************** used cpu time : 3 sec execution time : 13 sec *****************************************************************