Difference between revisions of "Progressive Development of Simulations"
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| − | [[File:VacuumTantBrem.png |400px|thumb| | + | [[File:VacuumTantBrem.png |400px|thumb|center|]] |
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When simulating Ionization and Multiple Scattering in Aluminum, no photons were created.</div> | When simulating Ionization and Multiple Scattering in Aluminum, no photons were created.</div> | ||
| − | [[File:VacuumAlBrem.png |400px|thumb| | + | [[File:VacuumAlBrem.png |400px|thumb|center|]] |
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When simulating Ionization and Multiple Scattering in air, no photons were created.</div> | When simulating Ionization and Multiple Scattering in air, no photons were created.</div> | ||
| − | [[File:AirBrem.png |400px|thumb| | + | [[File:AirBrem.png |400px|thumb|center|]] |
Revision as of 05:04, 18 July 2017
Differing Physics for Tantalum Only
2.8 MeV electron hitting a 20 thousandths of an inch thick piece of Tantalum and then plotting the photon energies
Brem = Bremsstrahlung
Ion = Electron Ionization
MS = Electron Multiple Scattering
When simulating Ionization and Multiple Scattering in Tantalum, no photons were created.
Differing Physics for Aluminum Only
2.8 MeV electron hitting a 1/2 inch thick piece of Aluminum and then plotting the photon energies
Brem = Bremsstrahlung
Ion = Electron Ionization
MS = Electron Multiple Scattering
When simulating Ionization and Multiple Scattering in Aluminum, no photons were created.
Differing Physics for Air Only
2.8 MeV electron hitting air and then plotting the photon energies
Brem = Bremsstrahlung
Ion = Electron Ionization
MS = Electron Multiple Scattering
When simulating Ionization and Multiple Scattering in air, no photons were created.