Difference between revisions of "Calibration Info"
Jump to navigation
Jump to search
Line 1: | Line 1: | ||
To fully understand the relationship between PMT Counts and total exposure for the Nanodot OSLs, a custom calibration is needed. This calibration is used in lieu of the calibration created by the OSL reader, which is created using the pre-dosed OSLs from the manufacturer. To begin the calibration, a set of fifteen unexposed Nanodot OSLs is chosen at random and exposed to a 9.3Ci <math> ^{137}Cesium</math> source. Using a distance of 30cm from the faceplate of the source and also including the distance from the faceplate to the surface of the source, <math>{D}=(\text{Distance to faceplate} + 11.2cm)=41.2cm </math> , the exposure rate is calculated in Roentgen using <math> \dot R = \frac {\Gamma A }{ D^2} </math>. A gamma factor of <math> {\Gamma} = 0.33 \frac {(m^2)(R)}{(Ci)(hr)} </math> and activity of <math>{A} = 9.3 Ci </math> is used for these calculations. Using the exposure rate calculation, it is possible to find the total exposure by integrating over time, <math>\int\limits_{t_0}^{t_f}\dot R\ dt </math>. | To fully understand the relationship between PMT Counts and total exposure for the Nanodot OSLs, a custom calibration is needed. This calibration is used in lieu of the calibration created by the OSL reader, which is created using the pre-dosed OSLs from the manufacturer. To begin the calibration, a set of fifteen unexposed Nanodot OSLs is chosen at random and exposed to a 9.3Ci <math> ^{137}Cesium</math> source. Using a distance of 30cm from the faceplate of the source and also including the distance from the faceplate to the surface of the source, <math>{D}=(\text{Distance to faceplate} + 11.2cm)=41.2cm </math> , the exposure rate is calculated in Roentgen using <math> \dot R = \frac {\Gamma A }{ D^2} </math>. A gamma factor of <math> {\Gamma} = 0.33 \frac {(m^2)(R)}{(Ci)(hr)} </math> and activity of <math>{A} = 9.3 Ci </math> is used for these calculations. Using the exposure rate calculation, it is possible to find the total exposure by integrating over time, <math>\int\limits_{t_0}^{t_f}\dot R\ dt </math>. | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
Revision as of 23:28, 15 May 2018
To fully understand the relationship between PMT Counts and total exposure for the Nanodot OSLs, a custom calibration is needed. This calibration is used in lieu of the calibration created by the OSL reader, which is created using the pre-dosed OSLs from the manufacturer. To begin the calibration, a set of fifteen unexposed Nanodot OSLs is chosen at random and exposed to a 9.3Ci
source. Using a distance of 30cm from the faceplate of the source and also including the distance from the faceplate to the surface of the source, , the exposure rate is calculated in Roentgen using . A gamma factor of and activity of is used for these calculations. Using the exposure rate calculation, it is possible to find the total exposure by integrating over time, .