Commit 33129309 authored by Thomas Planche's avatar Thomas Planche

trying to get organized

parent 91db7ef7
zgoubi HRS tuto: DIPOLE
'OBJET'
544.12 !BORO: Brho of 60 keV 238U+ = 544.12 kG.cm
2 !KOBJ=2: initial coordinates must be entered explicitly
1 1 !total number of particles; number of distinct momenta
0. 0. 0. 0. 0. 1. 'o' !Y; T; Z; P; S; D; 'marker'. Note: Brho=BORO*D
1 !1 or -9 (-9 disables the tracking of this particle)
'DIPOLE'
2 !output flag: 0: no outpot, 2: output trajectory to zgoubi.plt, etc.
65 120. !AT[deg.], RM[cm]
65 4.5343342 0. 0. 0. !ACENT[deg.];B0[kG]; N; B; GX
7.0 0. !ENTRANCE FIELD BOUNDARY: fringe field extend[cm]; unused
0 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
45. 26.5 1e99 0.0 0.0 1e99 !W+[deg.]; edge angle[deg.]; R1[cm]; U1; U2; R2[cm]
0. 0. !EXIT FIELD BOUNDARY: (not used for now)
0. 0. 0. 0. 0. 0. 0. 0.
0. 0. -1e99 0.0 0.0 -1e99 0.
0. 0. !FACE 3: (Not used here)
0 0. 0. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 0. 0.
2 4. !IRD(=2, 25 or 4)
0.5 !Integration step size[cm]
2 127.96721 -0.349067 0. 0.0 !KPOS RE[cm]; TE[rad]; RS[cm]; TS[rad]
'FAISCNL'
atDIPOLEcenter.fai
'FIT'
2 !Number of physical parameters to be varied
2 5 0. 0.2 !element #2; vary parameter #64; coupling switch; relative range
2 64 0. 0.2 !element #2; vary parameter #64; coupling switch; relative range
2 1e-15 100 !Number of constraints; Convergence threshold; maximum number of iterations
3 1 2 2 120.0 1. 0 !IC (=3 for constraint on particle coordinate); Particle #; Particle coordinate (=2 for Y);element #;Wanted value; Weigth ; 0
3 1 3 2 0.0 1. 0 !IC (=3 for constraint on particle coordinate); Particle #; Particle coordinate (=3 for T);element #;Wanted value; Weigth ; 0
'END'
zgoubi HRS tuto: DIPOLE
'OBJET'
544.12 !60 keV U1+
5 !5: generate 11 particles used to calculate transfer matrix ('MATRIX')
0.01 0.01 0.01 0.01 .1 .001 !step size in Y; T; Z; P; S; D
0.0 0. 0. 0. 0. 1.
'DRIFT'
36.32357
'DIPOLE'
2 !output flag: 0: no outpot, 2: output trajectory to zgoubi.plt, etc.
130 120. !AT[deg.], RM[cm]
65 4.5343342 0. 0. 0. !ACENT[deg.];B0[kG]; N; B; GX
7.0 0. !ENTRANCE FIELD BOUNDARY: fringe field extend[cm]; unused
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
45. 26.5 1e99 0.0 0.0 1e99 !W+[deg.]; edge angle[deg.]; R1[cm]; U1; U2; R2[cm]
7.0 0. !EXIT FIELD BOUNDARY: lambda; =-1 for Enge like
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
-45. -26.5 -1e99 0. 0. -1e99 0. !W-; edge angle; R1; U1; U2; R2
0. 0. !FACE 3: (Not used here)
0 0. 0. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 0. 0.
2 4. !IRD(=2, 25 or 4)
0.5 !Integration step size[cm]
2 127.96721 -0.349067 127.96721 0.349067 !KPOS RE[cm]; TE[rad]; RS[cm]; TS[rad]
'DRIFT'
36.32357
'MATRIX'
1 0
'FIT'
1 !Number of physical parameters to be varied
3 36 -3.020 0.1 !element#4 (DIPOLE); parameter #36 (exit edge angle); inverse (minus sign) correlation with element#4 parameter#20 (entrance edge angle); relative range
2 1e-11 100 !Number of constraints; Convergence threshold; maximum number of iterations
1 1 1 5 0.0 1. 0 !transfer matrix; matrix element 1 1; FIT after element#12 ('MATRIX');Wanted value(=0.0); Weigth ; 0:no additional parameters
1 2 2 5 0.0 1. 0 !transfer matrix; matrix element 2 2; FIT after element#12 ('MATRIX');Wanted value(=0.0); Weigth ; 0:no additional parameters
'END'
zgoubi HRS tuto: DIPOLE
'OBJET'
544.12 !60 keV U1+
3.01 !read from particles from file
1 3000 1
1 1 1
1 1 2.0 0.25 1 1 1 *
0 0 0 0 0 0 0
0
input_noEspread.fai
'DRIFT'
36.32357
'DIPOLE'
0 !output flag: 0: no outpot, 2: output trajectory to zgoubi.plt, etc.
130 120. !AT[deg.], RM[cm]
65 4.5343183 0. 0. 0. !ACENT[deg.];B0[kG]; N; B; GX
7.0 0. !ENTRANCE FIELD BOUNDARY: fringe field extend[cm]; unused
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
45. 26.543694 1e99 0.0 0.0 1e99 !W+[deg.]; edge angle[deg.]; R1[cm]; U1; U2; R2[cm]
7.0 0. !EXIT FIELD BOUNDARY: lambda; =-1 for Enge like
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
-45. -26.543694 -1e99 0. 0. -1e99 0. !W-; edge angle; R1; U1; U2; R2
0. 0. !FACE 3: (Not used here)
0 0. 0. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 0. 0.
2 4. !IRD(=2, 25 or 4)
0.5 !Integration step size[cm]
2 127.96748 -0.349067 127.96748 0.349067 !KPOS RE[cm]; TE[rad]; RS[cm]; TS[rad]
'DRIFT'
36.32357
'DRIFT'
36.32357
'DIPOLE'
0 !output flag: 0: no outpot, 2: output trajectory to zgoubi.plt, etc.
130 120. !AT[deg.], RM[cm]
65 4.5343183 0. 0. 0. !ACENT[deg.];B0[kG]; N; B; GX
7.0 0. !ENTRANCE FIELD BOUNDARY: fringe field extend[cm]; unused
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
45. 26.543694 1e99 0.0 0.0 1e99 !W+[deg.]; edge angle[deg.]; R1[cm]; U1; U2; R2[cm]
7.0 0. !EXIT FIELD BOUNDARY: lambda; =-1 for Enge like
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
-45. -26.543694 -1e99 0. 0. -1e99 0. !W-; edge angle; R1; U1; U2; R2
0. 0. !FACE 3: (Not used here)
0 0. 0. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 0. 0.
2 4. !IRD(=2, 25 or 4)
0.5 !Integration step size[cm]
2 127.96748 -0.349067 127.96748 0.349067 !KPOS RE[cm]; TE[rad]; RS[cm]; TS[rad]
'DRIFT'
36.32357 ! drift length=80-120*tan(20/deg.)
'FAISCNL'
mass1.fai
'END'
'MATRIX'
1 0
'END'
'FIT' 13
3 !Number of physical parameters to be varied
3 36 -3.020 0.1 !element#4 (DIPOLE); parameter #36 (exit edge angle); inverse (minus sign) correlation with element#4 parameter#20 (entrance edge angle); relative range
6 20 3.020 0.1
6 36 -3.020 0.1
2 1e-11 100 !Number of constraints; Convergence threshold; maximum number of iterations
1 1 2 8 0.0 1. 0 !transfer matrix; matrix element 1 1; FIT after element#12 ('MATRIX');Wanted value(=0.0); Weigth ; 0:no additional parameters
1 2 1 8 0.0 1. 0 !transfer matrix; matrix element 2 2; FIT after element#12 ('MATRIX');Wanted value(=0.0); Weigth ; 0:no additional parameters
'END'
'OBJET'
544.12 !60 keV U1+
5 !5: generate 11 particles used to calculate transfer matrix ('MATRIX')
0.01 0.01 0.01 0.01 .1 .001 !step size in Y; T; Z; P; S; D
0.0 0. 0. 0. 0. 1.
'OBJET'
544.12 !BORO[kg.cm]: Brho of 60 keV 238U+ in kG.cm
2 !KOBJ=2: initial coordinates must be entered explicitly
1 1 !total number of particles; number of distinct momenta
0. 0. 0. 0. 0. 1. 'o' !Y; T; Z; P; S; D; 'marker'. Note: Brho=BORO*D
1 !1 or -9 (-9 disables the tracking of this particle)
zgoubi HRS tuto: DIPOLE
'OBJET'
544.12 !60 keV U1+
5 !5: generate 11 particles used to calculate transfer matrix ('MATRIX')
0.1 0.1 0.1 0.1 .1 .001 !step size in Y; T; Z; P; S; D
0.0 0. 0. 0. 0. 1.
'DRIFT'
36.32357
'DIPOLE'
0 !output flag: 0: no outpot, 2: output trajectory to zgoubi.plt, etc.
130 120. !AT[deg.], RM[cm]
65 4.5343183 0. 0. 0. !ACENT[deg.];B0[kG]; N; B; GX
7.0 0. !ENTRANCE FIELD BOUNDARY: fringe field extend[cm]; unused
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
45. 26.543694 1e99 0.0 0.0 1e99 !W+[deg.]; edge angle[deg.]; R1[cm]; U1; U2; R2[cm]
7.0 0. !EXIT FIELD BOUNDARY: lambda; =-1 for Enge like
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
-45. -26.543694 -1e99 0. 0. -1e99 0. !W-; edge angle; R1; U1; U2; R2
0. 0. !FACE 3: (Not used here)
0 0. 0. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 0. 0.
2 4. !IRD(=2, 25 or 4)
0.5 !Integration step size[cm]
2 127.96748 -0.349067 127.96748 0.349067 !KPOS RE[cm]; TE[rad]; RS[cm]; TS[rad]
'DRIFT'
36.32357
'DRIFT'
36.32357
'DIPOLE'
0 !output flag: 0: no outpot, 2: output trajectory to zgoubi.plt, etc.
130 120. !AT[deg.], RM[cm]
65 4.5343183 0. 0. 0. !ACENT[deg.];B0[kG]; N; B; GX
7.0 0. !ENTRANCE FIELD BOUNDARY: fringe field extend[cm]; unused
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
45. 26.543694 1e99 0.0 0.0 1e99 !W+[deg.]; edge angle[deg.]; R1[cm]; U1; U2; R2[cm]
7.0 0. !EXIT FIELD BOUNDARY: lambda; =-1 for Enge like
4 0. 1.8 0. 0. 0. 0. 0. !unused; C0...C5; shift
-45. -26.543694 -1e99 0. 0. -1e99 0. !W-; edge angle; R1; U1; U2; R2
0. 0. !FACE 3: (Not used here)
0 0. 0. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 0. 0.
2 4. !IRD(=2, 25 or 4)
0.5 !Integration step size[cm]
2 127.96748 -0.349067 127.96748 0.349067 !KPOS RE[cm]; TE[rad]; RS[cm]; TS[rad]
'DRIFT'
36.32357
'MATRIX'
1 0
'END'
'FIT' 13
3 !Number of physical parameters to be varied
3 36 -3.020 0.1 !element#4 (DIPOLE); parameter #36 (exit edge angle); inverse (minus sign) correlation with element#4 parameter#20 (entrance edge angle); relative range
6 20 3.020 0.1
6 36 -3.020 0.1
2 1e-11 100 !Number of constraints; Convergence threshold; maximum number of iterations
1 1 2 8 0.0 1. 0 !transfer matrix; matrix element 1 1; FIT after element#12 ('MATRIX');Wanted value(=0.0); Weigth ; 0:no additional parameters
1 2 1 8 0.0 1. 0 !transfer matrix; matrix element 2 2; FIT after element#12 ('MATRIX');Wanted value(=0.0); Weigth ; 0:no additional parameters
'END'
'OBJET'
544.12 !60 keV U1+
5 !5: generate 11 particles used to calculate transfer matrix ('MATRIX')
0.01 0.01 0.01 0.01 .1 .001 !step size in Y; T; Z; P; S; D
0.0 0. 0. 0. 0. 1.
'OBJET'
544.12 !BORO[kg.cm]: Brho of 60 keV 238U+ in kG.cm
2 !KOBJ=2: initial coordinates must be entered explicitly
1 1 !total number of particles; number of distinct momenta
0. 0. 0. 0. 0. 1. 'o' !Y; T; Z; P; S; D; 'marker'. Note: Brho=BORO*D
1 !1 or -9 (-9 disables the tracking of this particle)
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