INFO: Using directory: "1"
INFO: Using existing c-file: ./HZB_FLEX.c
INFO: Using existing binary: ./HZB_FLEX.out
INFO: ===
Simulation 'HZB_FLEX' (/u/data/pkwi/WORK/mcstas-test/20240617_1024_07/mcstas-3.x-dev_run2_nexus_Linux/HZB_FLEX/HZB_FLEX.instr): running on 20 nodes (master is 'panda2.fysik.dtu.dk', MPI version 3.1).
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
[HZB_FLEX] Initialize
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
*** TRACE end *** 

Save [HZB_FLEX]
Detector: Before_selec_I=2.97526e+07 Before_selec_ERR=31019.2 Before_selec_N=1.65706e+06 "PSD_monitor_before.dat"
Detector: After_selec_I=2.03764e+07 After_selec_ERR=25681.2 After_selec_N=967376 "PSD_monitor_after.dat"
<E> : 4.98332 meV , E-width : 0.135534 meV 
<E> : 4.98487 meV , E-width : 0.135688 meV 
<E> : 4.98407 meV , E-width : 0.135295 meV 
<E> : 4.9844 meV , E-width : 0.135274 meV 
<E> : 4.98515 meV , E-width : 0.136152 meV 
<E> : 4.98496 meV , E-width : 0.13557 meV 
<E> : 4.98473 meV , E-width : 0.135121 meV 
<E> : 4.98151 meV , E-width : 0.134859 meV 
<E> : 4.98397 meV , E-width : 0.135485 meV 
<E> : 4.98495 meV , E-width : 0.134968 meV 
<E> : 4.98421 meV , E-width : 0.135415 meV 
<E> : 4.98309 meV , E-width : 0.134925 meV 
<E> : 4.98361 meV , E-width : 0.135708 meV 
<E> : 4.98321 meV , E-width : 0.136093 meV 
<E> : 4.98295 meV , E-width : 0.13535 meV 
<E> : 4.98358 meV , E-width : 0.135264 meV 
<E> : 4.98279 meV , E-width : 0.13613 meV 
<E> : 4.98403 meV , E-width : 0.134984 meV 
<E> : 4.98412 meV , E-width : 0.136144 meV 
Detector: energy_endguide_I=1.326e+07 energy_endguide_ERR=19842.9 energy_endguide_N=656570 "energy-endguide.dat"
<E> : 4.98425 meV , E-width : 0.136065 meV 
<E> : 4.98304 meV , E-width : 0.0823022 meV 
<E> : 4.97894 meV , E-width : 0.083607 meV 
<E> : 4.98125 meV , E-width : 0.0833556 meV 
<E> : 4.98057 meV , E-width : 0.0832185 meV 
<E> : 4.98116 meV , E-width : 0.0829294 meV 
<E> : 4.97905 meV , E-width : 0.082945 meV 
<E> : 4.9811 meV , E-width : 0.0825638 meV 
<E> : 4.97862 meV , E-width : 0.0820284 meV 
<E> : 4.97865 meV , E-width : 0.0822361 meV 
<E> : 4.97922 meV , E-width : 0.0829584 meV 
<E> : 4.98064 meV , E-width : 0.0822806 meV 
<E> : 4.97867 meV , E-width : 0.0827418 meV 
<E> : 4.97957 meV , E-width : 0.0815078 meV 
<E> : 4.97744 meV , E-width : 0.0825839 meV 
<E> : 4.97969 meV , E-width : 0.0831997 meV 
<E> : 4.98018 meV , E-width : 0.0820989 meV 
<E> : 4.97846 meV , E-width : 0.0833259 meV 
<E> : 4.98004 meV , E-width : 0.0817273 meV 
<E> : 4.97801 meV , E-width : 0.0814644 meV 
Detector: energy_mono_I=4.31723e+06 energy_mono_ERR=11321.6 energy_mono_N=211968 "energy-mono.dat"
<E> : 4.98013 meV , E-width : 0.0835069 meV 
<E> : 4.98252 meV , E-width : 0.0704169 meV 
<E> : 4.97821 meV , E-width : 0.0706266 meV 
<E> : 4.97884 meV , E-width : 0.0703731 meV 
<E> : 4.97969 meV , E-width : 0.0709547 meV 
<E> : 4.97955 meV , E-width : 0.0694002 meV 
<E> : 4.97745 meV , E-width : 0.0700436 meV 
<E> : 4.97925 meV , E-width : 0.070112 meV 
<E> : 4.97774 meV , E-width : 0.0697119 meV 
<E> : 4.97809 meV , E-width : 0.0698926 meV 
<E> : 4.97807 meV , E-width : 0.0691737 meV 
<E> : 4.97885 meV , E-width : 0.0698754 meV 
<E> : 4.97826 meV , E-width : 0.0711334 meV 
<E> : 4.97864 meV , E-width : 0.070276 meV 
<E> : 4.97732 meV , E-width : 0.0699956 meV 
<E> : 4.97951 meV , E-width : 0.0703882 meV 
<E> : 4.97954 meV , E-width : 0.0698717 meV 
<E> : 4.97815 meV , E-width : 0.0700698 meV 
<E> : 4.97863 meV , E-width : 0.0702264 meV 
Detector: energy_pre_sample_I=3.65035e+06 energy_pre_sample_ERR=10546.7 energy_pre_sample_N=153979 "energy-pre-sample.dat"
<E> : 4.97774 meV , E-width : 0.0697076 meV 
<E> : 4.97981 meV , E-width : 0.0703377 meV 
Detector: div_mono_I=4.06243e+06 div_mono_ERR=11047.7 div_mono_N=181396 "div-sample.dat"
Detector: div_mono_H_I=360228 div_mono_H_ERR=3267.59 div_mono_H_N=17796 "H-div-sample.dat"
Detector: psd_sam_I=4.33238e+06 psd_sam_ERR=11332.9 psd_sam_N=214301 "psd-sam.dat"

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 

Finally [HZB_FLEX: 1]. Time: 4 [s] 
Detector: dpsd1_I=4.33238e+06 dpsd1_ERR=11332.9 dpsd1_N=214301 "linpsdsam.dat"

Finally [HZB_FLEX: 1]. Time: 4 [s] 
INFO: Placing instr file copy /u/data/pkwi/WORK/mcstas-test/20240617_1024_07/mcstas-3.x-dev_run2_nexus_Linux/HZB_FLEX/HZB_FLEX.instr in dataset 1