Difference between revisions of "Positrons Using The HRRL"
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GEANT4 predicts about 1 , 2 MeV positron for every 10,000 electrons. To get a single positron in a pulse you need a peak current of | GEANT4 predicts about 1 , 2 MeV positron for every 10,000 electrons. To get a single positron in a pulse you need a peak current of | ||
− | :<math>\frac{10^ | + | :<math>\frac{10^5 \times 1.6 \times 10^{-19} Coul }{300 \times 10^{-9}} = 50 </math>nA |
===Electron Momentum Distributions=== | ===Electron Momentum Distributions=== |
Revision as of 14:31, 19 July 2012
The purpose of this research is to evaluate the veracity of a positron beam line using the quad triplet method to collect positrons produced when a 10 MeV electron beam impinges on a 1.25 mm thick Tungsten target.
Positron Beam Properties
Tungsten thickness
The optimal Tungsten target thickness to produce positrons using a 10 MeV incident electron beam appears to be 1.25 mm.
Reference Serkan Thesis
Positron Momentum and Phase space distribution
Assuming a 10 meV electron beam having a gaussian spot size with a
= 3mm.
We may want the achromat to have a 10% or less energy spread to measure the above distribution but we will also wan to open the slits to maximize positron current. This may mean accepting an energy spread of 30%.
Reference serkan thesis
GEANT4 simulation of 100 Million , 10 MeV electrons hitting a 0.8 mm thick Tungsten target at an angle of 45 degrees.
GEANT4 predicts about 1 , 2 MeV positron for every 10,000 electrons. To get a single positron in a pulse you need a peak current of
- nA
Electron Momentum Distributions
According to GEANT4
The electrons which penetrate a 1 mm Tungsten foil have the momentum distribution below
Accelerating 100,000 6 MeV electrons onto a 1 mm thick Tungsten target
If the incident beam is 100 mA then you might get a current of 100*400/100000 = 0.4 mA of 3 MeV electrons.
Accelerating 100,000 10 MeV electrons onto a 1 mm thick Tungsten target
Accelerating 100,000 15 MeV electrons onto a 1 mm thick Tungsten target
Measured HRRL emittance
HRRL beam line