Difference between revisions of "PbBi PosEventFiles NoGaps 2016"

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Event files were generated assuming an ideal solenoid having an inner radius of 2.527 cm surrounding a beam pipe with a radius of 1.74 cm.  Electrons impinge a 2mm thick PbBi liquid target that has a surface area of 2.54 cm x 2.54 cm.  Stainless steel windows 0.25 mm thick sandwhich the PbBi target at locations Z= -10.4875 and Z= -10.7125 cm. The target is located at Z = -10.6 cm and the beam begins upstream at Z = -1.1 m.  The incident electron beam is a 0.5 cm radius cylinder.
Event files were generated assuming an ideal solenoid having an inner radius of 2.527 cm surrounding a beam pipe with a radius of 1.74 cm.  Electrons impinge a 2mm thick PbBi liquid target that has a surface area of 2.54 cm x 2.54 cm.  Stainless steel windows 0.25 mm thick sandwhich the PbBi target at locations Z= -90.325 and Z= -89.875 cm. The target is located at Z =-90.1 cm and the beam begins 20 cm upstream at Z = -110.1 cm.  The incident electron beam is a 0.5 cm radius cylinder.
 
  
 
===Positrons exiting the Solenoid===
 
===Positrons exiting the Solenoid===
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|-
 
|-
| Overall Target layout || Closeup of Target Simulation Geometry. The center of the 0.25mm thick stainless steel windows are a distance of 2.25 mm from the center of the LBE target.  <math>d_{USS} =  d_{DSS} =</math> 2.25 mm, <math>t_{LBE}=2</math> mm, <math>t_{SS} =</math> .25 mm. ||  An example positron production event.  The yellow lines represents a sensitive detector used to record all positron events.  The red line represents the incident 10 MeV electron that produces two bremsstrahlung photons shown in green.  The first photon has an energy of 2.151 MeV and pair produces in the stainless steel window.  The second photon has an energy of 1.393 MeV and exits the system without interacting.  The first photon is created at time t= 3.323 ns. The first photon produces a  234.6 keV electron and a 894.2 keV positron at time t=3.336 ns.  Only the positron has enough energy to exit the stainless steel window.
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| Overall Target layout || Closeup of Target Simulation Geometry. The center of the 0.25mm thick stainless steel windows are a distance of 1.125 mm from the center of the LBE target.  <math>d_{USS} =  d_{DSS} =</math> 1.125 mm, <math>t_{LBE}=2</math> mm, <math>t_{SS} =</math> .25 mm. ||  An example positron production event.  The yellow lines represents a sensitive detector used to record all positron events.  The red line represents the incident 10 MeV electron that produces two bremsstrahlung photons shown in green.  The first photon has an energy of 2.151 MeV and pair produces in the stainless steel window.  The second photon has an energy of 1.393 MeV and exits the system without interacting.  The first photon is created at time t= 3.323 ns. The first photon produces a  234.6 keV electron and a 894.2 keV positron at time t=3.336 ns.  Only the positron has enough energy to exit the stainless steel window.
 
|+ Apparatus
 
|+ Apparatus
 
|}
 
|}
  
  
In other words I should generate position and momentum files for positrons and electrons at the Z location 15 cm downstream from the middle of the LBE target and within a 3.48 cm diameter beam pipe.
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Event files for positrons and electrons are created at two positions, the exit of the downstream SS windows and the exit of the solenoid.
 
 
/vis/viewer/zoom 2
 
 
 
/gps/pos/centre 0.0 0.0 -150.
 
 
 
/vis/viewer/panTo -90.1 0 cm
 
 
 
/vis/viewer/reset
 
  
  
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PID, x(mm),y,z,Px,Py,Pz(MeV),t(ns)
 
PID, x(mm),y,z,Px,Py,Pz(MeV),t(ns)
  
in units of cm for distance and MeV for momentum is located at
+
in units of mm for distance and MeV for momentum is located at
  
for positrons
 
  
http://www2.cose.isu.edu/~foretony/Positrons_2mm10MeVCyl.dat
+
http://www2.cose.isu.edu/~foretony/PosAtExitWindowNoGaps6MeV.dat
  
 +
for positrons exiting the last SS windows
  
 
and
 
and
  
http://www2.cose.isu.edu/~foretony/Electrons_2mm10MeVCyl.dat
+
http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps6MeV.dat
 
 
The file below contains all the positrons that were created at the target
 
 
 
format
 
 
 
  
A space delimited text file with the above events in the format of
+
for electrons.
  
Initial electron (x,y,z,Px,Py,Pz), Final electron (t,x,y,z,Px,Py,Pz), Positron location after leaving LBE target (t,x,y,z,Px,Py,Pz),Location of positron as it exits a SS window (t,x,y,z,Px,Py,Pz).  Units are ns, mm, MeV/c.
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==Sample Events==
  
http://www2.cose.isu.edu/~foretony/AllPositrons_2mm10MeVCyl.dat
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The Sensitive detector is located either 1.1 mm (Z=-103.775 mm) away from the last SS window or 15 cm (Z= 46.225 mm )downstream.
  
 
 
 
{| border="1"
 
{| border="1"
| [[File:PositronTime_1-10-16.png|200px]] ||
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| particle|| Energy || At SS Exit Z= -10.3775 cm|| At Solenoid Exit
 +
|-
 +
| Positrons || 6 MeV  |http://www2.cose.isu.edu/~foretony/PosAtExitWindowNoGaps6MeV.dat || http://www2.cose.isu.edu/~foretony/PosExitSolenoidNoGaps6MeV.dat
 
|-
 
|-
Particle flight times for 20 million incident electrons on a 0.2mm thick LBE target with 0.25 mm thick stainless steel windows (no material exists after the last stainless steel window, only vacuum). The time an electron brems in the target (EscatTime) is shown in blackThe time a positron is created in the target (PosTime) is shown in blueThe time a positron has traveled 15 cm traversing a uniform 0.2 Tesla Solenoidal field (PosBeamTime) is shown in fuchsiaThe field exists throughout the entire worldPosBeamTimeCuts are positrons that are constrained to a beam pipe diameter of 34.8 mm. Positrons are traveling about the speed of light (30 cm/ns) so after 15 cm they arrived 0.5 nsec after the initial electron beam impinges the target.
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| Positrons || 8 MeV ||  http://www2.cose.isu.edu/~foretony/PosAtExitWindowNoGaps8MeV.dat || http://www2.cose.isu.edu/~foretony/PosSolenoidExitNoGaps8MeV.dat
|+ Positron Distributions
+
|-
 +
| Positrons || 10MeV ||  http://www2.cose.isu.edu/~foretony/PositronsAtExitWindowNoGaps10MeV.dat|| http://www2.cose.isu.edu/~foretony/PositronsAtSolExitNoGaps10MeV.dat
 +
|-
 +
| Electron || 6 MeV  || http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps6MeV.dat || http://www2.cose.isu.edu/~foretony/ElectronsAtSolenoidExitNoGaps6MeV.dat
 +
|-
 +
| Electrons || 8 MeV ||  http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps8MeV.dat || http://www2.cose.isu.edu/~foretony/ElectronsAtSolenoidExitNoGaps8MeV.dat
 +
|+ Sample Event Files
 +
|-
 +
| Electrons || 10 MeV ||  http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps10MeV.dat || http://www2.cose.isu.edu/~foretony/ElectronsAtSolenoidExitNoGaps10MeV.dat
 +
|+ Sample Event Files
 
|}
 
|}
  
  
===Positrons and Electrons after the SS Exit window===
 
 
The same configuration as the previous subsection except that the  1mm thick sensitive detector is placed at
 
Z = -100.5 mm.  Most of the electrons exit at Z = -100.9 mm.
 
 
A space delimited text file with the above events in the format of
 
 
PID, x(mm),y,z,Px,Py,Pz(MeV),t(ns)
 
 
in units of cm for distance and MeV for momentum is located at
 
 
for positrons
 
23500  Positrons in the file below
 
 
http://www2.cose.isu.edu/~foretony/PositronsAtExitWindow.dat
 
 
 
and
 
 
297216 electrons in the file below
 
 
http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindow.dat
 
  
 
[[G4Beamline_PbBi#Positron_.26_Electron_event_files]]
 
[[G4Beamline_PbBi#Positron_.26_Electron_event_files]]

Latest revision as of 21:52, 6 April 2016

Event files were generated assuming an ideal solenoid having an inner radius of 2.527 cm surrounding a beam pipe with a radius of 1.74 cm. Electrons impinge a 2mm thick PbBi liquid target that has a surface area of 2.54 cm x 2.54 cm. Stainless steel windows 0.25 mm thick sandwhich the PbBi target at locations Z= -10.4875 and Z= -10.7125 cm. The target is located at Z = -10.6 cm and the beam begins upstream at Z = -1.1 m. The incident electron beam is a 0.5 cm radius cylinder.

Positrons exiting the Solenoid

The solenoid design has changed such that the max field is 0.20 Tesla (0.22) and its length is 150 mm.



TF Niowave SolenoidDesign 12-04-15.png TF LBEtarg1 1-12-16.png TF LBEposEvent 1-12-16.png
Overall Target layout Closeup of Target Simulation Geometry. The center of the 0.25mm thick stainless steel windows are a distance of 1.125 mm from the center of the LBE target. [math]d_{USS} = d_{DSS} =[/math] 1.125 mm, [math]t_{LBE}=2[/math] mm, [math]t_{SS} =[/math] .25 mm. An example positron production event. The yellow lines represents a sensitive detector used to record all positron events. The red line represents the incident 10 MeV electron that produces two bremsstrahlung photons shown in green. The first photon has an energy of 2.151 MeV and pair produces in the stainless steel window. The second photon has an energy of 1.393 MeV and exits the system without interacting. The first photon is created at time t= 3.323 ns. The first photon produces a 234.6 keV electron and a 894.2 keV positron at time t=3.336 ns. Only the positron has enough energy to exit the stainless steel window.
Apparatus


Event files for positrons and electrons are created at two positions, the exit of the downstream SS windows and the exit of the solenoid.


Twenty (20) million incident electrons with an energy of 10 MeV and forming a cylindrical beam with a 0.5 cm radius cylinder impinged a 2mm thick LBE target located at Z = -106 mm. The Z location of positrons exiting the beam pipe at the end of the 15 cm long solenoid is 44 mm. The positrons are 150.00 mm from the middle of the LBE target (Z=44mm).

A space delimited text file with the above events in the format of

PID, x(mm),y,z,Px,Py,Pz(MeV),t(ns)

in units of mm for distance and MeV for momentum is located at


http://www2.cose.isu.edu/~foretony/PosAtExitWindowNoGaps6MeV.dat

for positrons exiting the last SS windows

and

http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps6MeV.dat

for electrons.

Sample Events

The Sensitive detector is located either 1.1 mm (Z=-103.775 mm) away from the last SS window or 15 cm (Z= 46.225 mm )downstream.


particle Energy At SS Exit Z= -10.3775 cm At Solenoid Exit
Positrons 6 MeV http://www2.cose.isu.edu/~foretony/PosAtExitWindowNoGaps6MeV.dat http://www2.cose.isu.edu/~foretony/PosExitSolenoidNoGaps6MeV.dat
Positrons 8 MeV http://www2.cose.isu.edu/~foretony/PosAtExitWindowNoGaps8MeV.dat http://www2.cose.isu.edu/~foretony/PosSolenoidExitNoGaps8MeV.dat
Positrons 10MeV http://www2.cose.isu.edu/~foretony/PositronsAtExitWindowNoGaps10MeV.dat http://www2.cose.isu.edu/~foretony/PositronsAtSolExitNoGaps10MeV.dat
Electron 6 MeV http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps6MeV.dat http://www2.cose.isu.edu/~foretony/ElectronsAtSolenoidExitNoGaps6MeV.dat
Electrons 8 MeV http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps8MeV.dat http://www2.cose.isu.edu/~foretony/ElectronsAtSolenoidExitNoGaps8MeV.dat
Sample Event Files
Electrons 10 MeV http://www2.cose.isu.edu/~foretony/ElectronsAtExitWindowNoGaps10MeV.dat http://www2.cose.isu.edu/~foretony/ElectronsAtSolenoidExitNoGaps10MeV.dat
Sample Event Files


G4Beamline_PbBi#Positron_.26_Electron_event_files