Difference between revisions of "Plastic Scintillator Calculation"
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= A different way to calculate probability of interaction = | = A different way to calculate probability of interaction = | ||
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+ | I checked out a few of the physics material supply sites and most of them list with their products the amounts of each individual atom per <math> cm^3</math>. Therefore there is a quicker way to calculate the probability of interaction which is listed below. | ||
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+ | Probability of interaction <math> = (\frac{# of Carbon}{cm^3}*(MF#C*(\sigma_{elec}+\sigma{nucleus})) | ||
[http://wiki.iac.isu.edu/index.php/PhotoFission_with_Polarized_Photons_from_HRRL Go Back] | [http://wiki.iac.isu.edu/index.php/PhotoFission_with_Polarized_Photons_from_HRRL Go Back] |
Revision as of 05:42, 5 February 2009
Below is the calculations done to determine the probability of pair production depending on thickness of the scintillator.
Molecules per
(NOTE: is just the density of the scintillator material and N[A] is Avogadro's number)Molecules per
Weighted cross-section
Probability of interaction (%)
All cross sections listed here are pair production cross-sections
For carbon
orFor carbon
orFor hydrogen
orFor hydrogen
orAvogadro's number
Molecular formula for PVT
Density of polyvinyl toluene (a common scintillator material) [1])
(NOTE: this value is from Rexon RP 200or is it [2] (TF)H/C = 11/10
For the sample calculation the thickness will be set to 1 cm just to get probability per cm
So entering all the numbers into the 4 initial equations gives the following answers:
Molecules per
Molecules per
Weighted cross-section
Probability of interaction (%)
Doing the same calculations using the Bicron BC 408 PVT with anthracene [3] for the material yields a probability of
A different way to calculate probability of interaction
I checked out a few of the physics material supply sites and most of them list with their products the amounts of each individual atom per
. Therefore there is a quicker way to calculate the probability of interaction which is listed below.Probability of interaction <math> = (\frac{# of Carbon}{cm^3}*(MF#C*(\sigma_{elec}+\sigma{nucleus}))