Difference between revisions of "DV RunGroupC Moller"

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[[File:FinalMomCM.jpg]][[File:MollerMomCM.jpg]]
 
[[File:FinalMomCM.jpg]][[File:MollerMomCM.jpg]]
  
'''[[Different Versions of Møller differential cross section]]''' 11GeV
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[[File:FinalTheta.jpg]][[File:MollerTheta.jpg]]
  
[[File:V1.jpg]]
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[[File:FinalThetaCM.jpg]][[File:MollerThetaCM.jpg]]
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'''[[Comparing experimental vs. theoretical for Møller differential cross section]]''' 11GeV
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[[File:FinalMomCM.jpg]][[File:V3.jpg]]
  
 
[[File:V2.jpg]]
 
[[File:V2.jpg]]

Revision as of 20:13, 23 April 2015

Simulating the Moller scattering background for EG1

Step 1

Determine the Moller background using an LH2 target to check the physics in GEANT4

Incident electron energy varies from 1-11 GeV.

LH2 target is a cylinder with a 1.5 cm diameter and 1 cm thickness.

  (Following dimensions listed on page 8 of File:PHY02-33.pdf)

Numbers Moller electrons per incident electron.

  While 2nd and 3rd generations are created, only 2 2nd generation daughter particles are created for 1E6 incident particles.  All knock on electrons are not counted.

Momentum and angular distributions. 11GeV

ElectronMomentumLabFrame.jpgMollerMomentumLabFrame.jpg

FinalMomCM.jpgMollerMomCM.jpg

FinalTheta.jpgMollerTheta.jpg

FinalThetaCM.jpgMollerThetaCM.jpg

Comparing experimental vs. theoretical for Møller differential cross section 11GeV

FinalMomCM.jpgV3.jpg

V2.jpg

Step 2

Replace the LH2 target with an NH3 target and compare with LH2 target.


Step 3

Determine impact of Solenoid magnet on Moller events

Papers used

A polarized target for the CLAS detectorFile:PHY02-33.pdf

An investigation of the spin structure of the proton in deep inelastic scattering of polarized muons on polarized protons File:1819.pdf

EG12