Difference between revisions of "Calculation of radiation yield"
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The number of photons per MeV per incident electron per <math>g/cm^2</math> of radiator (Z,A) is given by [1]: | The number of photons per MeV per incident electron per <math>g/cm^2</math> of radiator (Z,A) is given by [1]: | ||
| − | <math>\frac{d^2n}{d\kappa dt} = \frac{3.495 \times 10^{-4}}{A\kappa}[Z^2\Phi_n(Z,E_0,k)+Z\Phi_e(Z,E_0,k)](MeV^{-1}g^{-1}cm^2)</math>, where <math>\kappa</math> - photon kinetic energy in MeV | + | <math>\frac{d^2n}{d\kappa dt} = \frac{3.495 \times 10^{-4}}{A\kappa}[Z^2\Phi_n(Z,E_0,k)+Z\Phi_e(Z,E_0,k)](MeV^{-1}g^{-1}cm^2)</math>, |
| + | where <math>\kappa</math> - photon kinetic energy in MeV | ||
Revision as of 19:22, 8 May 2008
The number of photons per MeV per incident electron per of radiator (Z,A) is given by [1]:
, where - photon kinetic energy in MeV