INFO: Using directory: "1" INFO: Using existing c-file: ./Test_Fermi.c INFO: Using existing binary: ./Test_Fermi.out INFO: === Simulation 'Test_Fermi' (Test_Fermi.instr): running on 20 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1). Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize [Test_Fermi] Initialize [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] Test_Fermi: Using FermiChopper Theor: Lambda=8.01596 [Angs] Theor: Time from source t=0.00257078 [s] Theor: Time to detection t=0.00257078 [s] Time period dt=0.01 [s] Slit pack div 3.50032 [deg] (full width) Time window width =9.72311e-05 [s] (pulse width) Phase phi=92.548 [deg] [Test_Fermi] Initialize Guide_gravity: FC_GuideG: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] Guide_channeled: FC_GuideC: Fermi Chopper mode: frequency=100 [Hz] phase=271.92 [deg] FermiChopper: FC_McStas: Frequency nu=100 [Hz] 6000 [rpm], time frame=0.02 [s] phase=271.92 [deg] *** TRACE end *** Save [Test_Fermi] Detector: Monitor1_xt_I=0.0056561 Monitor1_xt_ERR=1.78861e-06 Monitor1_xt_N=1e+07 "Monitor1_xt_1765519443.x" Detector: Monitor1_xt_I=0.0056561 Monitor1_xt_ERR=1.78861e-06 Monitor1_xt_N=1e+07 "Monitor1_xt_1765519443.y" FermiChopper: FC_McStas Mean velocity v = 1169.99 [m/s] Mean wavelength lambda= 3.38127 [Angs] Mean energy omega = 7.15511 [meV] Mean arrival time t = 0.00248598 [s] Mean phase = 92.5722 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.42617e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84667 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 330 On absorbing slit coating: 368632 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1219 FermiChopper: FC_McStas Mean velocity v = 1169.85 [m/s] Mean wavelength lambda= 3.38165 [Angs] Mean energy omega = 7.15349 [meV] Mean arrival time t = 0.00248623 [s] Mean phase = 92.5817 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.4173e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84962 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 315 On absorbing slit coating: 368556 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1180 FermiChopper: FC_McStas Mean velocity v = 1170.06 [m/s] Mean wavelength lambda= 3.38106 [Angs] Mean energy omega = 7.15598 [meV] Mean arrival time t = 0.00248581 [s] Mean phase = 92.5658 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.41241e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 85302 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 342 On absorbing slit coating: 368257 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1203 FermiChopper: FC_McStas FermiChopper: FC_McStas Mean velocity v = 1169.93 [m/s] Mean wavelength lambda= 3.38142 [Angs] Mean energy omega = 7.15446 [meV] Mean arrival time t = 0.00248592 [s] Mean phase = 92.5701 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.41972e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84771 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 305 On absorbing slit coating: 368681 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1211 FermiChopper: FC_McStas Mean velocity v = 1169.97 [m/s] Mean wavelength lambda= 3.38132 [Angs] Mean energy omega = 7.15489 [meV] Mean arrival time t = 0.00248592 [s] Mean phase = 92.57 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.40806e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84902 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 292 On absorbing slit coating: 368782 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1209 Mean velocity v = 1170.12 [m/s] Mean wavelength lambda= 3.38088 [Angs] Mean energy omega = 7.15674 [meV] Mean arrival time t = 0.00248561 [s] Mean phase = 92.5587 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.39801e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 85331 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 309 On absorbing slit coating: 368572 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1160 FermiChopper: FC_McStas Mean velocity v = 1170.06 [m/s] Mean wavelength lambda= 3.38107 [Angs] Mean energy omega = 7.15597 [meV] FermiChopper: FC_McStas Mean velocity v = 1169.95 [m/s] Mean wavelength lambda= 3.38137 [Angs] Mean energy omega = 7.15467 [meV] Mean arrival time t = 0.0024858 [s] Mean phase = 92.5658 [deg] (use phase=-(this value) to optimize) FermiChopper: FC_McStas Mean velocity v = 1170.09 [m/s] Mean wavelength lambda= 3.38096 [Angs] Mean energy omega = 7.15643 [meV] Mean arrival time t = 0.00248564 [s] Mean phase = 92.5596 [deg] (use phase=-(this value) to optimize) Mean arrival time t = 0.00248549 [s] Mean phase = 92.5545 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.4266e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84867 Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.42633e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84581 Intensity passing FC = 2.40107e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84511 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 336 On absorbing slit coating: 368759 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 FermiChopper: FC_McStas Mean velocity v = 1170 [m/s] Mean wavelength lambda= 3.38124 [Angs] Mean energy omega = 7.15524 [meV] Mean arrival time t = 0.00248582 [s] Mean phase = 92.5665 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 317 On absorbing slit coating: 368503 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 At slit pack entrance: 334 On absorbing slit coating: 369290 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1180 Mad neutron (no control): 0 At cylinder exit: 1153 At cylinder exit: 1169 Intensity passing FC = 2.40489e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84694 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 337 On absorbing slit coating: 368992 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1221 Detector: Monitor1_xt_I=0.00565592 Monitor1_xt_ERR=1.78859e-06 Monitor1_xt_N=9.99969e+06 "Monitor1_xt_1765519443.t" FermiChopper: FC_McStas Mean velocity v = 1169.96 [m/s] Mean wavelength lambda= 3.38134 [Angs] Mean energy omega = 7.15479 [meV] FermiChopper: FC_McStas FermiChopper: FC_McStas Mean velocity v = 1169.99 [m/s] Mean wavelength lambda= 3.38126 [Angs] Mean energy omega = 7.15513 [meV] Mean arrival time t = 0.00248596 [s] Mean phase = 92.5717 [deg] (use phase=-(this value) to optimize) FermiChopper: FC_McStas Mean velocity v = 1169.98 [m/s] Mean wavelength lambda= 3.38127 [Angs] Mean energy omega = 7.15509 [meV] Mean arrival time t = 0.00248591 [s] Mean arrival time t = 0.00248592 [s] Mean phase = 92.57 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.403e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 Mean velocity v = 1170.04 [m/s] Mean wavelength lambda= 3.38112 [Angs] Mean energy omega = 7.15572 [meV] Mean arrival time t = 0.00248566 [s] Mean phase = 92.5607 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.42219e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] By Top/Bottom of cylinder: 0 At cylinder entrance: 84819 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 325 On absorbing slit coating: 368933 Exiting slit pack: 0 Too many iterations: 0 Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84687 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 309 On absorbing slit coating: 368734 Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.40139e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1202 At cylinder entrance: 85039 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 301 On absorbing slit coating: 368790 Exiting slit pack: 0 At cylinder exit: 1192 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1179 Mean phase = 92.5699 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.39656e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84495 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 335 FermiChopper: FC_McStas FermiChopper: FC_McStas Mean velocity v = 1169.92 [m/s] Mean wavelength lambda= 3.38146 [Angs] Mean energy omega = 7.1543 [meV] Mean arrival time t = 0.00248609 [s] On absorbing slit coating: 369397 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mean phase = 92.5766 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Mean velocity v = 1169.85 [m/s] Mean wavelength lambda= 3.38165 [Angs] Mean energy omega = 7.1535 [meV] Mean arrival time t = 0.00248632 [s] Mean phase = 92.5848 [deg] (use phase=-(this value) to optimize) Mad neutron (no control): 0 At cylinder exit: 1172 Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.41886e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Intensity passing FC = 2.40838e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84590 Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84569 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 328 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 326 On absorbing slit coating: 369094 Exiting slit pack: 0 Too many iterations: 0 On absorbing slit coating: 368902 Exiting slit pack: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1169 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1185 FermiChopper: FC_McStas Mean velocity v = 1170 [m/s] Mean wavelength lambda= 3.38123 [Angs] Mean energy omega = 7.15527 [meV] Mean arrival time t = 0.00248576 [s] Mean phase = 92.5641 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.40978e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84871 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 308 On absorbing slit coating: 368736 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1238 FermiChopper: FC_McStas Mean velocity v = 1170 [m/s] Mean wavelength lambda= 3.38122 [Angs] Mean energy omega = 7.15532 [meV] FermiChopper: FC_McStas Mean velocity v = 1170 [m/s] Mean wavelength lambda= 3.38123 [Angs] Mean energy omega = 7.15528 [meV] Mean arrival time t = 0.0024858 [s] Mean arrival time t = 0.0024857 [s] Mean phase = 92.5623 [deg] (use phase=-(this value) to optimize) Mean phase = 92.5658 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.38866e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.4209e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 At cylinder entrance: 84365 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 312 By Top/Bottom of cylinder: 0 At cylinder entrance: 84559 Hit cyl. entrance sides: 0 On absorbing slit coating: 369731 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1138 Can't prop. to slit pack: 0 At slit pack entrance: 330 On absorbing slit coating: 368837 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1220 FermiChopper: FC_McStas Mean velocity v = 1169.95 [m/s] Mean wavelength lambda= 3.38136 [Angs] Mean energy omega = 7.15472 [meV] Mean arrival time t = 0.00248585 [s] Mean phase = 92.5676 [deg] (use phase=-(this value) to optimize) Slit pack divergence = 3.50032 [deg] (full width) Opening time dt = 0.00557093 [s] Intensity reaching FC = 0.000282805 [n/s] Intensity passing FC = 2.40199e-05 [n/s] FermiChopper: FC_McStas: Lost events anaylsis Already inside: 0 By Top/Bottom of cylinder: 0 At cylinder entrance: 84595 Hit cyl. entrance sides: 0 Can't prop. to slit pack: 0 At slit pack entrance: 321 On absorbing slit coating: 369198 Exiting slit pack: 0 Too many iterations: 0 Prop. in wrong direction : 0 Mad neutron (no control): 0 At cylinder exit: 1184 Detector: Monitor2_xt_I=0.000482123 Monitor2_xt_ERR=5.0898e-07 Monitor2_xt_N=897251 "Monitor2_xt_1765519443.x" Detector: Monitor2_xt_I=0.000482123 Monitor2_xt_ERR=5.0898e-07 Monitor2_xt_N=897251 "Monitor2_xt_1765519443.y" Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Detector: Monitor2_xt_I=0.000482123 Monitor2_xt_ERR=5.0898e-07 Monitor2_xt_N=897251 "Monitor2_xt_1765519443.t" Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] Finally [Test_Fermi: 1]. Time: 2 [s] INFO: Placing instr file copy Test_Fermi.instr in dataset 1 INFO: Placing generated c-code copy Test_Fermi.c in dataset 1