Commit 78f18b54 authored by adelmann's avatar adelmann 🎗
Browse files

referernce data for 72 to 51 MeV degrader

parent f8c8be6b
#!/bin/bash
mpirun -np 4 $OPAL_EXE_PATH/opal Degrader-1.in --info 3 --warn 0 2>&1
timeout 300 mpirun -np 4 $OPAL_EXE_PATH/opal Degrader-1.in --info 3 --warn 0 2>&1
"Simple slab of carbon as degrader of a 72 MeV proton beam"
"Simple slab of carbon as degrader of a 72 MeV proton beam. The final energy is 51.108 MeV"
out "Ekin" last 1E-03
out "rms beam size" last 1E-04
out "rms emittance" last 1E-04
# 4
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
251711 249251 249803 249235
211380 209328 209973 209210
26696 26630 26738 27042
558 619 607 670
81700 79779 82478 81679
251772 238260 242227 230729
300494 223378 272346 203712
270454 193007 312186 224302
272891 187145 319390 220531
275103 181469 326711 216684
293715 185933 317812 202512
298958 182042 321731 197243
SDDS1
&description
text="Processor statistics 'Degrader-1.in' 19/03/201807:23:06",
contents="stat parameters"
&end
&parameter
name=processors,
type=long,
description="Number of Cores used"
&end
&parameter
name=revision,
type=string,
description="git revision of opal"
&end
&parameter
name=flavor,
type=string,
description="OPAL flavor that wrote file"
&end
&column
name=t,
type=double,
units=ns,
description="1 Time"
&end
&column
name=processor-0,
type=long,
units=1,
description="2 Number of particles of processor 0"
&end
&column
name=processor-1,
type=long,
units=1,
description="3 Number of particles of processor 1"
&end
&column
name=processor-2,
type=long,
units=1,
description="4 Number of particles of processor 2"
&end
&column
name=processor-3,
type=long,
units=1,
description="5 Number of particles of processor 3"
&end
&data
mode=ascii,
no_row_counts=1
&end
4
OPAL 1.9.0 git rev. #42f4e425feee9aa05f9f3e1f204e34ab86bd4ab8
opal-t
5.501515074293393e-02 250000 250000 250000 250000
6.501515074293392e-02 250000 250000 250000 250000
7.501515074293388e-02 250000 250000 250000 250000
8.501515074293384e-02 250000 250000 250000 250000
9.501515074293380e-02 250000 250000 250000 250000
1.050151507429338e-01 250000 250000 250000 250000
1.150151507429337e-01 250000 250000 250000 250000
1.250151507429337e-01 250000 250000 250000 250000
1.350151507429337e-01 250000 250000 250000 250000
1.450151507429336e-01 250000 250000 250000 250000
1.550151507429336e-01 250000 250000 250000 250000
1.650151507429336e-01 250000 250000 250000 250000
1.750151507429336e-01 222092 221610 221528 221637
1.850151507429335e-01 38545 38296 38306 38828
1.950151507429335e-01 630 622 628 606
2.050151507429334e-01 81654 81916 82351 82014
2.150151507429334e-01 240812 240812 240929 240874
2.250151507429334e-01 249983 249981 249980 249978
2.350151507429333e-01 249988 249986 249987 249987
2.450151507429333e-01 249989 249989 249990 249988
2.550151507429333e-01 249990 249990 249990 249990
2.650151507429332e-01 249990 249990 249991 249990
2.750151507429332e-01 249990 249990 249992 249990
ced37056158396d2b54ba6d38c77b175 Degrader-1.lbal
771307793620bdf193d1cd74f8849bc5 Degrader-1.lbal
Ippl> CommMPI: Started job 3 on host `merlin-l-01.psi.ch'.
Ippl> CommMPI: Parent process waiting for children ...
Ippl> CommMPI: Started job 1 on host `Dude.psi.ch'.
Ippl> CommMPI: Started job 2 on host `Dude.psi.ch'.
Ippl> CommMPI: Started job 3 on host `Dude.psi.ch'.
Ippl> CommMPI: Child 1 ready.
Ippl> CommMPI: Child 2 ready.
Ippl> CommMPI: Child 1 ready.
Ippl> CommMPI: Started job 1 on host `merlin-l-01.psi.ch'.
Ippl> CommMPI: Started job 2 on host `merlin-l-01.psi.ch'.
Ippl> CommMPI: Child 3 ready.
Ippl> CommMPI: Initialization complete.
{0}> ____ _____ ___
......@@ -13,31 +13,29 @@ Ippl> CommMPI: Initialization complete.
{0}> | |__| | | / ____ \| |____
{0}> \____/|_| /_/ \_\______|
OPAL{0}>
OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 1.3.99.1
OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 1.9.0
OPAL{0}>
OPAL{0}> (c) PSI, http://amas.web.psi.ch
OPAL{0}> The optimiser (former opt-Pilot) is integrated
OPAL{0}>
OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... )
OPAL{0}> to the OPAL developers opal@lists.psi.ch
OPAL{0}>
OPAL{0}> Time: 12:36:50 date: 24/09/2015
OPAL{0}> Time: 07:23:05 date: 19/03/2018
OPAL{0}>
OPAL{0}> Couldn't find startup file "/Users/adelmann/init.opal".
OPAL{0}> Couldn't find startup file "/gpfs/home/adelmann/init.opal".
OPAL{0}> Note: this is not mandatory for an OPAL simulation!
OPAL{0}>
OPAL{0}> * Reading input stream "Degrader-1.in".
OPAL{0}>
OPAL{0}> value: {GAMMA,BRHO,EDES,BETA,GAMBET}={1.07674,1.2494,0.072,0.370752,0.399202}
OPAL{0}>
OPAL{0}> * ************* S U R F A C E P H Y S I C S ****************************************
OPAL{0}> * SurfacePhysics::initSurfacePhysicsHandler
OPAL{0}> * ************* P A R T I C L E M A T E R I N T E R A C T I O N ******************
OPAL{0}> * ParticleMatterInteraction::initParticleMatterInteractionHandler
OPAL{0}> * **********************************************************************************
OPAL{0}> * ************* S U R F A C E P H Y S I C S ****************************************
OPAL{0}> * SURFACEPHYSICS DEG1_sphys
OPAL{0}> * ************* P A R T I C L E M A T T E R I N T E R A C T I O N ******************
OPAL{0}> * PARTICLEMATTERINTERACTION DEG1_parmatint
OPAL{0}> * MATERIAL Graphite
OPAL{0}> * RADIUS 0
OPAL{0}> * SIGMA 0
OPAL{0}> * TAU 0
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}[3]>
......@@ -48,6 +46,8 @@ OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK
OPAL{0}> * **********************************************************************************
Ippl{0}> no solver attached
Ippl{0}[3]> BC set for normal Beam
OPAL{0}[2]> * Generation of distribution with seed = 123456789
OPAL{0}[2]> * isn't scalable with number of particles and cores.
OPAL{0}> * m before gsl_linalg_cholesky_decomp
OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\
OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\
......@@ -68,26 +68,26 @@ OPAL{0}> * Number of particles: 1000000
OPAL{0}> *
OPAL{0}> * Distribution type: GAUSS
OPAL{0}> *
OPAL{0}> * SIGMAX = 0.005 [m]
OPAL{0}> * SIGMAY = 0.005 [m]
OPAL{0}> * SIGMAZ = 0.0005 [m]
OPAL{0}> * SIGMAPX = 0 [Beta Gamma]
OPAL{0}> * SIGMAPY = 0 [Beta Gamma]
OPAL{0}> * SIGMAPZ = 0 [Beta Gamma]
OPAL{0}> * AVRGPZ = 0.3992 [Beta Gamma]
OPAL{0}> * CORRX = 0
OPAL{0}> * CORRY = 0
OPAL{0}> * CORRZ = 0
OPAL{0}> * R61 = 0
OPAL{0}> * R62 = 0
OPAL{0}> * R51 = 0
OPAL{0}> * R52 = 0
OPAL{0}> * CUTOFFX = 3 [units of SIGMAX]
OPAL{0}> * CUTOFFY = 3 [units of SIGMAY]
OPAL{0}> * CUTOFFZ = 3 [units of SIGMAZ]
OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX]
OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY]
OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY]
OPAL{0}> * SIGMAX = 5.0000e-03 [m]
OPAL{0}> * SIGMAY = 5.0000e-03 [m]
OPAL{0}> * SIGMAZ = 5.0000e-04 [m]
OPAL{0}> * SIGMAPX = 0.0000e+00 [Beta Gamma]
OPAL{0}> * SIGMAPY = 0.0000e+00 [Beta Gamma]
OPAL{0}> * SIGMAPZ = 0.0000e+00 [Beta Gamma]
OPAL{0}> * AVRGPZ = 3.9920e-01 [Beta Gamma]
OPAL{0}> * CORRX = 0.0000e+00
OPAL{0}> * CORRY = 0.0000e+00
OPAL{0}> * CORRZ = 0.0000e+00
OPAL{0}> * R61 = 0.0000e+00
OPAL{0}> * R62 = 0.0000e+00
OPAL{0}> * R51 = 0.0000e+00
OPAL{0}> * R52 = 0.0000e+00
OPAL{0}> * CUTOFFX = 3.0000e+00 [units of SIGMAX]
OPAL{0}> * CUTOFFY = 3.0000e+00 [units of SIGMAY]
OPAL{0}> * CUTOFFLONG = 3.0000e+00 [units of SIGMAZ]
OPAL{0}> * CUTOFFPX = 3.0000e+00 [units of SIGMAPX]
OPAL{0}> * CUTOFFPY = 3.0000e+00 [units of SIGMAPY]
OPAL{0}> * CUTOFFPZ = 3.0000e+00 [units of SIGMAPY]
OPAL{0}> *
OPAL{0}> * Distribution is injected.
OPAL{0}> *
......@@ -96,22 +96,22 @@ OPAL{0}>
OPAL{0}> * ************* B E A M ************************************************************
OPAL{0}> * BEAM BEAM1
OPAL{0}> * PARTICLE PROTON
OPAL{0}> * CURRENT 0.002 A
OPAL{0}> * FREQUENCY 5.063e+07 Hz
OPAL{0}> * CHARGE +e * 1
OPAL{0}> * REST MASS 0.9383 GeV
OPAL{0}> * MOMENTUM 0.3746
OPAL{0}> * NPART 1e+06
OPAL{0}> * CURRENT 2.0000e-03 A
OPAL{0}> * FREQUENCY 5.0633e+01 MHz
OPAL{0}> * CHARGE +e * 1.0000e+00
OPAL{0}> * REST MASS 9.3827e-01 GeV
OPAL{0}> * MOMENTUM 3.7456e-01
OPAL{0}> * NPART 1.0000e+06
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}> * ************* F I E L D S O L V E R **********************************************
OPAL{0}> * FIELDSOLVER FS1
OPAL{0}> * TYPE NONE
OPAL{0}> * N-PROCESSORS 4
OPAL{0}> * MX 64
OPAL{0}> * MY 64
OPAL{0}> * MT 64
OPAL{0}> * BBOXINCR 1
OPAL{0}> * MX 6.4000e+01
OPAL{0}> * MY 6.4000e+01
OPAL{0}> * MT 6.4000e+01
OPAL{0}> * BBOXINCR 1.0000e+00
OPAL{0}> * XDIM parallel
OPAL{0}> * YDIM parallel
OPAL{0}> * Z(T)DIM parallel
......@@ -119,32 +119,32 @@ Ippl{0}[3]> ======UniformCartesian<3,MFLOAT>==begin======
Ippl{0}[3]> gridSizes[0] = 65
Ippl{0}[3]> gridSizes[1] = 65
Ippl{0}[3]> gridSizes[2] = 65
Ippl{0}[3]> origin = ( -0.0152028 , -0.0152151 , 0.0034762 )
Ippl{0}[3]> meshSpacing[0] = 0.000475306
Ippl{0}[3]> meshSpacing[1] = 0.000475675
Ippl{0}[3]> meshSpacing[2] = 4.76188e-05
Ippl{0}[3]> Dvc[0] = ( -525.977 , -525.569 , -5250.03 )
Ippl{0}[3]> Dvc[1] = ( 525.977 , -525.569 , -5250.03 )
Ippl{0}[3]> Dvc[2] = ( -525.977 , 525.569 , -5250.03 )
Ippl{0}[3]> Dvc[3] = ( 525.977 , 525.569 , -5250.03 )
Ippl{0}[3]> Dvc[4] = ( -525.977 , -525.569 , 5250.03 )
Ippl{0}[3]> Dvc[5] = ( 525.977 , -525.569 , 5250.03 )
Ippl{0}[3]> Dvc[6] = ( -525.977 , 525.569 , 5250.03 )
Ippl{0}[3]> Dvc[7] = ( 525.977 , 525.569 , 5250.03 )
Ippl{0}[3]> cell volume = 1.07662e-11
Ippl{0}[3]> origin = ( 0 , 0 , 0 )
Ippl{0}[3]> meshSpacing[0] = 1
Ippl{0}[3]> meshSpacing[1] = 1
Ippl{0}[3]> meshSpacing[2] = 1
Ippl{0}[3]> Dvc[0] = ( -0.25 , -0.25 , -0.25 )
Ippl{0}[3]> Dvc[1] = ( 0.25 , -0.25 , -0.25 )
Ippl{0}[3]> Dvc[2] = ( -0.25 , 0.25 , -0.25 )
Ippl{0}[3]> Dvc[3] = ( 0.25 , 0.25 , -0.25 )
Ippl{0}[3]> Dvc[4] = ( -0.25 , -0.25 , 0.25 )
Ippl{0}[3]> Dvc[5] = ( 0.25 , -0.25 , 0.25 )
Ippl{0}[3]> Dvc[6] = ( -0.25 , 0.25 , 0.25 )
Ippl{0}[3]> Dvc[7] = ( 0.25 , 0.25 , 0.25 )
Ippl{0}[3]> cell volume = 1
Ippl{0}[3]> ======UniformCartesian<3,MFLOAT>==end========
Ippl{0}[3]>
Ippl{0}[3]> ParticleSpatialLayout, with particle distribution:
Ippl{0}[3]> Number of particles 251711 Number of particles 249251 Number of particles 249803 Number of particles 249235
Ippl{0}[3]> SpatialLayout decomposition = Total Domain = {[-0.0152028,0.0152168),[-0.0152151,0.0152281),[0.0034762,0.00652381)}
Ippl{0}[3]> Number of particles 0 Number of particles 0 Number of particles 0 Number of particles 0
Ippl{0}[3]> SpatialLayout decomposition = Total Domain = {[0,64),[0,64),[0,64)}
Ippl{0}[3]> Local Rnodes = 1
Ippl{0}[3]> rnode 0 : {[-0.0152028,6.99247e-06),[-0.0152151,6.53305e-06),[0.0034762,0.00652381)}
Ippl{0}[3]> rnode 0 : {[0,32),[0,32),[0,64)}
Ippl{0}[3]> Remote Rnodes = 3
Ippl{0}[3]> rnode 0 : {[6.99247e-06,0.0152168),[-0.0152151,6.53305e-06),[0.0034762,0.00652381)}
Ippl{0}[3]> rnode 1 : {[-0.0152028,6.99247e-06),[6.53305e-06,0.0152281),[0.0034762,0.00652381)}
Ippl{0}[3]> rnode 2 : {[6.99247e-06,0.0152168),[6.53305e-06,0.0152281),[0.0034762,0.00652381)}
Ippl{0}[3]> rnode 0 : {[0,32),[32,64),[0,64)}
Ippl{0}[3]> rnode 1 : {[32,64),[0,32),[0,64)}
Ippl{0}[3]> rnode 2 : {[32,64),[32,64),[0,64)}
Ippl{0}[3]> Internal FieldLayout = Domain = {[0:63:1],[0:63:1],[0:63:1]}
Ippl{0}[3]> FieldLayoutUsers = 3
Ippl{0}[3]> FieldLayoutUsers = 4
Ippl{0}[3]> Total number of vnodes = 4
Ippl{0}[3]> Local Vnodes = 1
Ippl{0}[3]> vnode 0: Node = 0 ; vnode_m = 0 ; Domain = {[0:31:1],[0:31:1],[0:63:1]}
......@@ -155,1075 +155,1479 @@ Ippl{0}[3]> vnode 2 : Node = 3 ; vnode_m = 3 ; Domain = {[32:63:1],[32:63:1],[0
Ippl{0}[3]>
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}[2]> Phase space dump frequency 10 and statistics dump frequency 10 w.r.t. the time step.
Ippl{0}[3]> M0 gone live
Ippl{0}[3]> DEG1 gone live
Ippl{0}[3]> M1 gone live
OPAL{0}>
OPAL{0}> Size of map 5 sections
OPAL{0}> Key: ( -0.106260- 0.005000) number of overlapping elements 0
OPAL{0}> Key: ( 0.005000- 0.015003) number of overlapping elements 1
OPAL{0}> M0
OPAL{0}> Key: ( 0.015003- 0.020005) number of overlapping elements 0
OPAL{0}> Key: ( 0.020005- 0.030008) number of overlapping elements 1
OPAL{0}> DEG1
OPAL{0}> Key: ( 0.030008- 0.030675) number of overlapping elements 1
OPAL{0}> M1
OPAL{0}>
OPAL{0}>
OPAL{0}> * ************** B U N C H *********************************************************
OPAL{0}> * NP = 1000000
OPAL{0}> * Qtot = 3.95001e-02 [nC] Qi = 3.95001e-08 [nC]
OPAL{0}> * Ekin = 7.20000e+01 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL{0}> * rmax = ( 1.49791e-02 , 1.49903e-02 , 6.50000e-03 ) [m]
OPAL{0}> * rmin = ( -1.49651e-02 , -1.49772e-02 , 3.50001e-03 ) [m]
OPAL{0}> * rms beam size = ( 4.86842e-03 , 4.87214e-03 , 4.92750e-04 ) [m]
OPAL{0}> * NP = 1000000
OPAL{0}> * Qtot = 39.500 [pC] Qi = 0.040 [fC]
OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV]
OPAL{0}> * rmax = ( 14.98832 , 14.98089 , 1.49947 ) [mm]
OPAL{0}> * rmin = ( -14.99526 , -15.00257 , -1.50016 ) [mm]
OPAL{0}> * rms beam size = ( 4.87248 , 4.87698 , 0.49343 ) [mm]
OPAL{0}> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) [beta gamma]
OPAL{0}> * mean position = ( -4.68165e-06 , -5.56776e-06 , 5.00044e-03 ) [m]
OPAL{0}> * mean position = ( -0.00000 , -0.00000 , -0.00000 ) [um]
OPAL{0}> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 3.99202e-01 ) [beta gamma]
OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) (not normalized)
OPAL{0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , -0.00000e+00 )
OPAL{0}> * hr = ( 4.75306e-04 , 4.75675e-04 , 4.76188e-05 ) [m]
OPAL{0}> * dh = 1.00000e-10 [%]
OPAL{0}> * t = 0.00000e+00 [s] dT = 1.00000e-12 [s]
OPAL{0}> * spos = 5.00044e-03 [m]
OPAL{0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 )
OPAL{0}> * hr = ( 475.92994 , 475.92799 , 47.61305 ) [um]
OPAL{0}> * dh = 1.00000e-10 [%]
OPAL{0}> * t = 45.015 [ps] dT = 1.000 [ps]
OPAL{0}> * spos = 5.000 [mm]
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}[2]> Phase space dump frequency 10 and statistics dump frequency 10 w.r.t. the time step.
OPAL{0}> Track start at: 12:36:52, t= 0; zstop at: 1e+06 [m]
OPAL{0}> Executing ParallelTTracker, initial DT 1e-12 [s];
OPAL{0}> Track start at: 07:23:06, t= 45.015 [ps]; zstart at: 5.000 [mm]
OPAL{0}> Executing ParallelTTracker, initial dt= 1.000 [ps];
OPAL{0}> max integration steps 230, next step= 0
OPAL{0}> Using default (Boris-Buneman) integrator
OPAL{0}>
OPAL{0}> --- BEGIN FIELD LIST ---------------------------------------------------------------
OPAL{0}>
OPAL{0}> --- 0.005 m -- 0.015 m -- ----------------------------------------------------------
OPAL{0}> M0
OPAL{0}> --- 0.02 m -- 0.03 m -- has surface physics ---------------------------------------
OPAL{0}> DEG1
OPAL{0}> --- 0.03 m -- 0.04 m -- ------------------------------------------------------------
OPAL{0}> M1
OPAL{0}>
OPAL{0}> --- END FIELD LIST -----------------------------------------------------------------
OPAL{0}>
ParallelTTracker {0}[2]> MINBINEMITTED 1
ParallelTTracker {0}[2]> MINSTEPFORREBIN 200
ParallelTTracker {0}[2]> SURFACEEMISSIONSTOP after 1000 seconds
ParallelTTracker {0}[2]> REPARTFREQ 1000
ParallelTTracker {0}[3]> 12:36:52 Step 0 at 5.112 [mm] t= 1.000e-12 [s] E= 72.000 [MeV]
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 3.95001e-02 [nC] Qi = 3.95001e-08 [nC]
OPAL {0}> * Ekin = 7.20000e+01 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 1.49791e-02 , 1.49903e-02 , 6.55557e-03 ) [m]
OPAL {0}> * rmin = ( -1.49651e-02 , -1.49772e-02 , 3.55559e-03 ) [m]
OPAL {0}> * rms beam size = ( 4.86842e-03 , 4.87214e-03 , 4.92750e-04 ) [m]
OPAL {0}> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -4.68165e-06 , -5.56776e-06 , 5.11159e-03 ) [m]
OPAL {0}> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 3.99202e-01 ) [beta gamma]
OPAL {0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , -0.00000e+00 )
OPAL {0}> * hr = ( 4.75306e-04 , 4.75675e-04 , 4.76188e-05 ) [m]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 1.00000e-12 [s] dT = 1.00000e-12 [s]
OPAL {0}> * spos = 5.11159e-03 [m]
OPAL {0}> * **********************************************************************************
OPAL {0}>
ParallelTTracker {0}[3]> 07:23:06 Step 0 at 5.111 [mm], t= 46.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 1 at 5.222 [mm], t= 47.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 2 at 5.333 [mm], t= 48.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 3 at 5.445 [mm], t= 49.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 4 at 5.556 [mm], t= 50.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 5 at 5.667 [mm], t= 51.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 6 at 5.778 [mm], t= 52.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 7 at 5.889 [mm], t= 53.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 8 at 6.000 [mm], t= 54.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 9 at 6.111 [mm], t= 55.015 [ps], E=72.000 [MeV]
OPAL {0}[3]> * Wrote beam statistics.
ParallelTTracker {0}[3]> 12:36:53 Step 1 at 5.223 [mm] t= 2.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:53 Step 2 at 5.334 [mm] t= 3.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:53 Step 3 at 5.445 [mm] t= 4.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:54 Step 4 at 5.556 [mm] t= 5.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:54 Step 5 at 5.667 [mm] t= 6.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:54 Step 6 at 5.778 [mm] t= 7.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:54 Step 7 at 5.890 [mm] t= 8.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:54 Step 8 at 6.001 [mm] t= 9.000e-12 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:55 Step 9 at 6.112 [mm] t= 1.000e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:55 Step 10 at 6.223 [mm] t= 1.100e-11 [s] E= 72.000 [MeV]
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 3.95001e-02 [nC] Qi = 3.95001e-08 [nC]
OPAL {0}> * Ekin = 7.20000e+01 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 1.49791e-02 , 1.49903e-02 , 7.66706e-03 ) [m]
OPAL {0}> * rmin = ( -1.49651e-02 , -1.49772e-02 , 4.66707e-03 ) [m]
OPAL {0}> * rms beam size = ( 4.86842e-03 , 4.87214e-03 , 4.92750e-04 ) [m]
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 39.500 [pC] Qi = 0.040 [fC]
OPAL {0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV]
OPAL {0}> * rmax = ( 14.98832 , 14.98089 , 1.49947 ) [mm]
OPAL {0}> * rmin = ( -14.99526 , -15.00257 , -1.50016 ) [mm]
OPAL {0}> * rms beam size = ( 4.87248 , 4.87698 , 0.49343 ) [mm]
OPAL {0}> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -4.68165e-06 , -5.56776e-06 , 6.22308e-03 ) [m]
OPAL {0}> * mean position = ( -0.00000 , -0.00000 , -0.00000 ) [um]
OPAL {0}> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 3.99202e-01 ) [beta gamma]
OPAL {0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , -0.00000e+00 )
OPAL {0}> * hr = ( 4.75306e-04 , 4.75675e-04 , 4.76188e-05 ) [m]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 1.10000e-11 [s] dT = 1.00000e-12 [s]
OPAL {0}> * spos = 6.22308e-03 [m]
OPAL {0}> * hr = ( 475.92994 , 475.92799 , 47.61305 ) [um]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 55.015 [ps] dT = 1.000 [ps]
OPAL {0}> * spos = 6.111 [mm]
OPAL {0}> * **********************************************************************************
OPAL {0}>
OPAL {0}[2]> * Wrote beam phase space.
ParallelTTracker {0}[3]> 07:23:06 Step 10 at 6.223 [mm], t= 56.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 11 at 6.334 [mm], t= 57.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 12 at 6.445 [mm], t= 58.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 13 at 6.556 [mm], t= 59.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 14 at 6.667 [mm], t= 60.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 15 at 6.778 [mm], t= 61.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 16 at 6.890 [mm], t= 62.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 17 at 7.001 [mm], t= 63.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 18 at 7.112 [mm], t= 64.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:06 Step 19 at 7.223 [mm], t= 65.015 [ps], E=72.000 [MeV]
OPAL {0}[3]> * Wrote beam statistics.
ParallelTTracker {0}[3]> 12:36:56 Step 11 at 6.334 [mm] t= 1.200e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:56 Step 12 at 6.445 [mm] t= 1.300e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:56 Step 13 at 6.557 [mm] t= 1.400e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:56 Step 14 at 6.668 [mm] t= 1.500e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:57 Step 15 at 6.779 [mm] t= 1.600e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:57 Step 16 at 6.890 [mm] t= 1.700e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:57 Step 17 at 7.001 [mm] t= 1.800e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:57 Step 18 at 7.112 [mm] t= 1.900e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:57 Step 19 at 7.223 [mm] t= 2.000e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:57 Step 20 at 7.335 [mm] t= 2.100e-11 [s] E= 72.000 [MeV]
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 3.95001e-02 [nC] Qi = 3.95001e-08 [nC]
OPAL {0}> * Ekin = 7.20000e+01 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 1.49791e-02 , 1.49903e-02 , 8.77854e-03 ) [m]
OPAL {0}> * rmin = ( -1.49651e-02 , -1.49772e-02 , 5.77856e-03 ) [m]
OPAL {0}> * rms beam size = ( 4.86842e-03 , 4.87214e-03 , 4.92750e-04 ) [m]
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 39.500 [pC] Qi = 0.040 [fC]
OPAL {0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV]
OPAL {0}> * rmax = ( 14.98832 , 14.98089 , 1.49947 ) [mm]
OPAL {0}> * rmin = ( -14.99526 , -15.00257 , -1.50016 ) [mm]
OPAL {0}> * rms beam size = ( 4.87248 , 4.87698 , 0.49343 ) [mm]
OPAL {0}> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -4.68165e-06 , -5.56776e-06 , 7.33456e-03 ) [m]
OPAL {0}> * mean position = ( -0.00000 , -0.00000 , -0.00000 ) [um]
OPAL {0}> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 3.99202e-01 ) [beta gamma]
OPAL {0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , -0.00000e+00 )
OPAL {0}> * hr = ( 4.75306e-04 , 4.75675e-04 , 4.76188e-05 ) [m]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 2.10000e-11 [s] dT = 1.00000e-12 [s]
OPAL {0}> * spos = 7.33456e-03 [m]
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 )
OPAL {0}> * hr = ( 475.92994 , 475.92799 , 47.61305 ) [um]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 65.015 [ps] dT = 1.000 [ps]
OPAL {0}> * spos = 7.223 [mm]
OPAL {0}> * **********************************************************************************
OPAL {0}>
OPAL {0}[2]> * Wrote beam phase space.
ParallelTTracker {0}[3]> 07:23:07 Step 20 at 7.334 [mm], t= 66.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 21 at 7.445 [mm], t= 67.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 22 at 7.556 [mm], t= 68.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 23 at 7.668 [mm], t= 69.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 24 at 7.779 [mm], t= 70.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 25 at 7.890 [mm], t= 71.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 26 at 8.001 [mm], t= 72.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 27 at 8.112 [mm], t= 73.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 28 at 8.223 [mm], t= 74.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 29 at 8.334 [mm], t= 75.015 [ps], E=72.000 [MeV]
OPAL {0}[3]> * Wrote beam statistics.
ParallelTTracker {0}[3]> 12:36:59 Step 21 at 7.446 [mm] t= 2.200e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:59 Step 22 at 7.557 [mm] t= 2.300e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:59 Step 23 at 7.668 [mm] t= 2.400e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:59 Step 24 at 7.779 [mm] t= 2.500e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:36:59 Step 25 at 7.890 [mm] t= 2.600e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:00 Step 26 at 8.001 [mm] t= 2.700e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:00 Step 27 at 8.113 [mm] t= 2.800e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:00 Step 28 at 8.224 [mm] t= 2.900e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:00 Step 29 at 8.335 [mm] t= 3.000e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:00 Step 30 at 8.446 [mm] t= 3.100e-11 [s] E= 72.000 [MeV]
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 3.95001e-02 [nC] Qi = 3.95001e-08 [nC]
OPAL {0}> * Ekin = 7.20000e+01 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 1.49791e-02 , 1.49903e-02 , 9.89003e-03 ) [m]
OPAL {0}> * rmin = ( -1.49651e-02 , -1.49772e-02 , 6.89004e-03 ) [m]
OPAL {0}> * rms beam size = ( 4.86842e-03 , 4.87214e-03 , 4.92750e-04 ) [m]
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 39.500 [pC] Qi = 0.040 [fC]
OPAL {0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV]
OPAL {0}> * rmax = ( 14.98832 , 14.98089 , 1.49947 ) [mm]
OPAL {0}> * rmin = ( -14.99526 , -15.00257 , -1.50016 ) [mm]
OPAL {0}> * rms beam size = ( 4.87248 , 4.87698 , 0.49343 ) [mm]
OPAL {0}> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -4.68165e-06 , -5.56776e-06 , 8.44605e-03 ) [m]
OPAL {0}> * mean position = ( -0.00000 , -0.00000 , -0.00000 ) [um]
OPAL {0}> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 3.99202e-01 ) [beta gamma]
OPAL {0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , -0.00000e+00 )
OPAL {0}> * hr = ( 4.75306e-04 , 4.75675e-04 , 4.76188e-05 ) [m]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 3.10000e-11 [s] dT = 1.00000e-12 [s]
OPAL {0}> * spos = 8.44605e-03 [m]
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 )
OPAL {0}> * hr = ( 475.92994 , 475.92799 , 47.61305 ) [um]
OPAL {0}> * dh = 1.00000e-10 [%]
OPAL {0}> * t = 75.015 [ps] dT = 1.000 [ps]
OPAL {0}> * spos = 8.334 [mm]
OPAL {0}> * **********************************************************************************
OPAL {0}>
OPAL {0}[2]> * Wrote beam phase space.
ParallelTTracker {0}[3]> 07:23:07 Step 30 at 8.446 [mm], t= 76.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 31 at 8.557 [mm], t= 77.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 32 at 8.668 [mm], t= 78.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 33 at 8.779 [mm], t= 79.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 34 at 8.890 [mm], t= 80.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 35 at 9.001 [mm], t= 81.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 36 at 9.112 [mm], t= 82.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 37 at 9.224 [mm], t= 83.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 38 at 9.335 [mm], t= 84.015 [ps], E=72.000 [MeV]
ParallelTTracker {0}[3]> 07:23:07 Step 39 at 9.446 [mm], t= 85.015 [ps], E=72.000 [MeV]
OPAL {0}[3]> * Wrote beam statistics.
Ippl{0}[3]> DEG1 gone live
ParallelTTracker {0}[3]> 12:37:03 Step 31 at 8.557 [mm] t= 3.200e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 32 at 8.668 [mm] t= 3.300e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 33 at 8.779 [mm] t= 3.400e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 34 at 8.891 [mm] t= 3.500e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 35 at 9.002 [mm] t= 3.600e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 36 at 9.113 [mm] t= 3.700e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 37 at 9.224 [mm] t= 3.800e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:04 Step 38 at 9.335 [mm] t= 3.900e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:05 Step 39 at 9.446 [mm] t= 4.000e-11 [s] E= 72.000 [MeV]
ParallelTTracker {0}[3]> 12:37:05 Step 40 at 9.558 [mm] t= 4.100e-11 [s] E= 72.000 [MeV]
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 3.95001e-02 [nC] Qi = 3.95001e-08 [nC]
OPAL {0}> * Ekin = 7.20000e+01 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 1.49791e-02 , 1.49903e-02 , 1.10015e-02 ) [m]
OPAL {0}> * rmin = ( -1.49651e-02 , -1.49772e-02 , 8.00153e-03 ) [m]
OPAL {0}> * rms beam size = ( 4.86842e-03 , 4.87214e-03 , 4.92750e-04 ) [m]
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 39.500 [pC] Qi = 0.040 [fC]
OPAL {0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV]
OPAL {0}> * rmax = ( 14.98832 , 14.98089 , 1.49947 ) [mm]
OPAL {0}> * rmin = ( -14.99526 , -15.00257 , -1.50016 ) [mm]
OPAL {0}> * rms beam size = ( 4.87248 , 4.87698 , 0.49343 ) [mm]
OPAL {0}> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -4.68165e-06 , -5.56776e-06 , 9.55753e-03 ) [m]
OPAL {0}> * mean position = ( -0.00000 , -0.00000 , -0.00000 ) [um]
OPAL {0}> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 3.99202e-01 ) [beta gamma]
OPAL {0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( 0.00000e+00 , 0.00000e+00 , -0.00000e+00 )
OPAL {0}> * hr = ( 4.75306e-04 , 4.75675e-04 , 4.76188e-05 ) [m]
OPAL {0}> * dh = 1.00000e-10 [%]