Looking at effects of Solenoid on Phi Shifts

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Using Moller Data to alter energy range

Using the Moller event file MollerScattering_NH3_4e8incident.dat, we can use the fact that GEMC will only recreate a particle based on the Moller electron. While the data for the scattered electron is passed within a LUND file, kinematically this electron doesn't leave the beam line, and thus never enters the detectors to be recreated. Since the solenoid's purpose is draw electrons trajectories closer the the beam line any electron close the the beam line will be drawn even closer, ensuring that it is never recreated in a GEMC simulation.

We can alter the energy conversion from MollerScattering_NH3_4e8incident.dat to investigate the energy-phi shift relationship

FinalTheta.jpg


Plotting Scattering angle Theta vs. Total Energy for the Moller and scattered electron in the Lab frame.

Theta Energy Lab.png


For the scattered electrons at theta of 90 degrees, these particles will not enter the detector and as a result are of no concern. Zooming in on the Moller electron in the scattering angle theta vs. energy:

Moller Theta E lab.png

Solenoid effect > 2GeV

The number of of reconstructed GEMC events registering a shift in their phi angle due to the magnetic field of the solenoid are recorded. This is repeated for each of the five unique LUND files for each of the 7 magnetic fields being investigated. A similar process of recording the number of phi shifts is repeated for each magnetic field. Each quantity of phi shifts for non-zero magnetic fields is normalized with respect to the number of phi shifts at with the corresponding LUND file for 0T ([math]x_i[/math]). This information is used to find the corrected sample standard deviation:

[math]\sigma \equiv \sqrt{\frac{1}{N-1} \sum_{k=1}^N (x_i+\bar{x})^2}[/math]


Creating a dat file with the magnetic field, phi shift, and the corrected sample standard deviation:

Phi Change vs. Magnetic Field of Solenoid for 2-11GeV Moller Electrons
Magnetic Field (T) [math]\Delta \ \phi [/math](degrees) [math]\sigma[/math](degrees)
-5 0.748315 0.0164881
-2 0.899798 0.0147794
0 1 0
2 0.895382 0.0235786
4 0.809941 0.00795766
5 0.740047 0.0201546
6 0.708541 0.0172073

Xmgrace can be used to plot this:

GeV.png

Investigating a plot of the distribution of the particles energy as a function of the change in the angle phi for the different magnetic fields.

Composite Fields.png

Solenoid effect > 200 MeV

Creating a dat file with the magnetic field, phi shift, and the corrected sample standard deviation:

Phi Change vs. Magnetic Field of Solenoid for 2-11GeV Moller Electrons
Magnetic Field (T) [math]\Delta \ \phi [/math](degrees) [math]\sigma[/math](degrees)
-5 0.0585341 0.00740803
-2 0.138686 0.0308416
0 1 0
2 0.131325 0.0234678
4 0.0646613 0.0133132
5 0.059031 0.0122767
6 0.051293 0.00876825

Xmgrace can be used to plot this:

MeV.png

Solenoid effect > 20MeV

No Phi shifts for Energies in this range where found in the simulation.


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