Difference between revisions of "LB RunGroupC Vertex"
| Line 110: | Line 110: | ||
|| Z Resolution (cm) || 0.28 || 0.3582 || || | || Z Resolution (cm) || 0.28 || 0.3582 || || | ||
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| − | || Generated Vx (cm) || [[ File:05cmZTarg GenPartx.png|200 px]] || [[ File:1cmZTarg GenPartx.png|200px]]|| ** ||[[ File:3cmZTarg GenPartx.png|200px]] | + | || Generated Vx (cm) || [[ File:05cmZTarg GenPartx.png|200 px]] || [[ File:1cmZTarg GenPartx.png|200px]]|| ** ||[[ File:3cmZTarg GenPartx.png|200px]] || |
|- | |- | ||
| − | || Generated Vy (cm) || [[File:0.5ZTarg GenPartY.png|200px]] || [[File:1cmZTarg GenParty.png|200px]] || ** || [[File:3cmZTarg GenParty.png|200px]] | + | || Generated Vy (cm) || [[File:0.5ZTarg GenPartY.png|200px]] || [[File:1cmZTarg GenParty.png|200px]] || ** || [[File:3cmZTarg GenParty.png|200px]] || |
|- | |- | ||
| − | || Generated Vz (cm) || [[File:05ZTarg GenPartz.png|200px]] || [[File:1cmZTarg GenPartz.png|200px]] || ** || | + | || Generated Vz (cm) || [[File:05ZTarg GenPartz.png|200px]] || [[File:1cmZTarg GenPartz.png|200px]] || ** || [[File:3cmZTarg GenPartz.png|200px]] || |
|- | |- | ||
|| Reconstructed Vx (cm) || [[File:0.5ZTarg Eventx.png|200px]] || [[File:1cmZTarg Eventx.png|200px]] || ** || | || Reconstructed Vx (cm) || [[File:0.5ZTarg Eventx.png|200px]] || [[File:1cmZTarg Eventx.png|200px]] || ** || | ||
Revision as of 18:17, 25 July 2016
Vertex Reconstruction studies
Inclusive electron GEMC 2.4 & Coatjava 2.4
Summary
Set all histogram ranges to -6,6 cm and bin sizes of 0.1 cm
Point target X,Y,Z=0 cm
| No Rastering | |
|---|---|
| Vx Difference | 
|
| Vy Difference | 
|
| Vz Difference | 
|
| X Resolution (cm) | 0.2362 |
| Y Resolution(cm) | 0.09809 |
| Z Resolution (cm) | 0.05435 |
These histograms raise some questions. To begin I created a LUND file with 6 GeV incident electrons at 25 degrees in theta and 0 degrees in phi. All of the vertex positions were set to 0. I then ran GEMC 2.4 using the command line ~/src/CLAS/GEMC/source/gemc -USE_GUI=0 -INPUT_GEN_FILE="LUND,No_Raster.LUND" -N=75000 eg12_sol_No_Raster.gcard
which created an output file called eg12_sol_75k_No_Raster.ev. After that the reconstruction command line used was
~/src/CLAS/coatjava-2.4/bin/clas12-reconstruction -i eg12_sol_75k_No_Raster.ev-config GEOM::new=true -config MAG::torus=-1.0 -config MAG::solenoid=1.0 -o eg12_sol_75k_No_Raster_rec.evio -s DCHB:DCTB:EC:FTOF:EB -config DATA::mc=true -config DCTB::useRaster=true
After the reconstruction a root file was created using
~/src/CLAS/evio2root/bin/evio2root eg12_sol_75k_No_Raster_rec.evio eg12_sol_75k_No_Raster_rec.root 75000
A plot was then created to show the X Vertex and Y Vertex Differences
The first question is why is there a shift in the Y Difference. What would make X more centered around 0? The next question is when rastering begins, why do the resolutions in the X Vertices remain unchanged while the resolutions in the Y Vertices change?
Point in 2-D but extended target in 1-D
Two vertex variables are fixed at zero and the third vertex variable is altered
| 2cm X Raster, Y=0,Z=0 | 2 cm Y Raster, X=0,Z=0 | 2 cm Z Raster ,X=0,Y=0 | 6 cm Z Raster ,X=0,Y=0 | |
|---|---|---|---|---|
| Vx Difference |  |
 |
 |
|
| Vy Difference |  |
 |
 |
|
| Vz Difference |  |
 |
 |
|
| X Resolution (cm) | 0.2658 | 0.2531 | 0.2544 | 0.2539 |
| Y Resolution(cm) | 0.1728 | 0.2368 | 0.2644 | 0.6191 |
| Z Resolution (cm) | 0.1792 | 0.1998 | 0.4318 | 1.105 |
Extended target -3 < Z < 3 cm
| 1cm X Raster | 1 cm Y Raster | 1 cm X & Y Raster | |
|---|---|---|---|
| X Resolution (cm) | 0.2696 | 0.2588 | 0.2734 |
| Y Resolution (cm) | 0.6234 | 0.6851 | 0.6927 |
| Z Resolution (cm) | 1.136 | 1.361 | 1.381 |
| Generated Vx (cm) |  |
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| Generated Vy (cm) |  |
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| Generated Vz (cm) |  |
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| Reconstructed Vx (cm) |  |
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| Reconstructed Vy (cm) |  |
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| Reconstructed Vz (cm) |  |
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| Vx Difference (cm) |  |
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| Vy Difference (cm) |  |
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| Vz Difference (cm) |  |
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Extended target in Z. Vy shift analysis
All Histograms below were created by simply making the target longer along the Z axis. Each case uses vertex points for X and Y ranging from -1cm to 1cm
| 0.5cm Z Target | 1cm Z Target | 2cm Z Target | 3cm Z Target | 4cm Z Target | 5cm Z Target | 6cm Z Target | |
|---|---|---|---|---|---|---|---|
| X Resolution (cm) | 0.2705 | 0.2726 | |||||
| Y Resolution (cm) | 0.2041 | 0.2282 | |||||
| Z Resolution (cm) | 0.28 | 0.3582 | |||||
| Generated Vx (cm) |  |
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** |  |
|||
| Generated Vy (cm) |  |
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** |  |
|||
| Generated Vz (cm) |  |
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** |  |
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| Reconstructed Vx (cm) |  |
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** | ||||
| Reconstructed Vy (cm) |  |
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** | ||||
| Reconstructed Vz (cm) |  |
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** | ||||
| Vx Difference (cm) |  |
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** | ||||
| Vy Difference (cm) |  |
 |
** | ||||
| Vz Difference (cm) |  |
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** |
Elastic electron proton GEMC 2.4 & Coatjava 2.4
References
https://clasweb.jlab.org/wiki/index.php/TF_EG12_Vertex#Z_resolution_With_micro-megas