Difference between revisions of "LB Thesis NewSNR Corrections"
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[[File:Se81m AvsConc BeamOff.png|200px]] | [[File:Se81m AvsConc BeamOff.png|200px]] | ||
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| + | Perhaps the difference comes from the fact that the irradiation times were different, but to normalize to a standard beam time, a reference material must be used. Segebade says | ||
| + | "Since, as already mentioned, yield values are normalized for a common exposure period of one hour, the following expression is required, which converts the individual activities yielded using other irradiation times to those after standard exposure period T (1h): | ||
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| + | <math> N(T) = \frac{A_{0,el}}{A_{0,Ni}} \times \frac{(1-e^{-\lambda_{el}T})}{(1-e^{- \lambda T_i})} </math> | ||
Revision as of 15:53, 25 July 2018
First plot the efficiency corrected activity as a function of concentration. These points are not weighted by mass, but they are fully corrected as per the thesis otherwise. These values are the activity at the highest value of N/B
This plot doesn't look very good as the 50% sample has a lower activity than the 10% sample. Try plotting this at the time of beam off. Note these are done using fits with the accepted half life vs. the experimental half life. The error bars represent |(Free Fit A) - (Fixed Fit A)|
Perhaps the difference comes from the fact that the irradiation times were different, but to normalize to a standard beam time, a reference material must be used. Segebade says "Since, as already mentioned, yield values are normalized for a common exposure period of one hour, the following expression is required, which converts the individual activities yielded using other irradiation times to those after standard exposure period T (1h):