Difference between revisions of "Aluminum Thickness Tests"

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==Conclusion==
 
==Conclusion==
 
Without photon physics active and vacuum in the tracker and chamber, I cannot say whether electrons are making it though the target and beamstop.  
 
Without photon physics active and vacuum in the tracker and chamber, I cannot say whether electrons are making it though the target and beamstop.  
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[[TriMev Simulations]]
 
[[TriMev Simulations]]

Revision as of 22:54, 12 October 2017

No Photon Physics

Varying Aluminum beamstop thickness

Tantalum thickness of 0.0508cm

All electron physics turned on

Chamber and Tracker matter is vacuum

Aluminum Thickness Photon Kinetic Energy Spectrum Z Position of Photon Creation Volume of Photon Creation
8.897cm 1RadLengthAl.png OneRadLengthAl ZPos.png OneRadLengthAl Volume.png
1.5875cm (5/8")
Five eighths inch Al.png
Five eighths inch Al ZPos.png Five eighths inch Al Volume.png
1.27cm (1/2") Half inch Al.png Half inch Al ZPos.png Half inch Al Volume.png
4.4485cm Half Rad Length Al.png Half Rad Length Al ZPos.png Half Rad Length Al Volume.png
2.22425cm One quarter Rad Length Al.png One quarter Rad Length Al ZPos.png One quarter Rad Length Al Volume.png

Note: Volume 1 = Target, Volume 2 = Beamstop, Volume 3 = Tracker, Volume 4 = Chamber, Volume 5 = else

Conclusion

Without photon physics active and vacuum in the tracker and chamber, I cannot say whether electrons are making it though the target and beamstop.






TriMev Simulations