Difference between revisions of "Comparing With Whitney Rates"
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− | <center><math>\sigma=\frac{N_{ | + | <center><math>\sigma=\frac{N_{scattered}}{N_{incident}}\frac{1}{\rho \ell}\Rightarrow N_{incident}=\frac{N_{scattered}}{\sigma \rho \ell}=\frac{1000000}{.078\cdot 2.11\times 10^{-1}}\approx 6\times 10^7\ incident </math></center> |
<center><math>\left ( \frac{Number\ of\ hits}{Moller\ electron}\right ) \left (\frac{Moller\ electrons}{incidents\ electron} \right) \left (\frac{incident\ electrons}{sec} \right )</math></center> | <center><math>\left ( \frac{Number\ of\ hits}{Moller\ electron}\right ) \left (\frac{Moller\ electrons}{incidents\ electron} \right) \left (\frac{incident\ electrons}{sec} \right )</math></center> |
Revision as of 15:30, 14 March 2018
Using the values from Whitney:
For a 5cm target of LH2:
Using the beam current of 100nA,
Given the beam Luminosity of:
We can check to make sure the density makes sense
Using the values from Whitney :
https://wiki.iac.isu.edu/index.php/CLAS12_RateEst_byWA
Energy | 6 GeV | 11 GeV |
Process | (nb) | (nb) |
Moller | 22773001 | 75008636 |
DIS + radiative tail | 128 | 83 |
Elastic e-p | 5511220 | 3670740 |
Elastic radiative tail | 24705 | 12944 |
π0 electro-production | 14802 | 17908 |
π0 photo-production | 569 | 852 |
π+ electro-production | 4032 | 5536 |
π+ photo-production | 282 | 487 |
π− electro-production | 2806 | 3843 |
π− photo-production | 199 | 342 |
Total | 2.83317E7 | 7.87214E7 |
Similarly,