Interaction of fast neutrons with oxygen atoms of cooling water in reactor core leads to the production of 16N isotope which emits 6.13 MeV gamma ray. A system is developed to measure the 16N gamma ray activity using a5.08cm ×5.08cm NaI(Tl) detector. A suitable electronic system is used to count 16N gamma rays in different reactor powers in order to calibrate the 16N system in terms of reactor power. Some non-linearity in the system behavior have been observed and discussions have been presented for this effect.
M Azizi Shamami, , H Ghods, , J Rahighi, and J Dabiri, (2019). Power measurement in Tehran research reactor (TRR) using 16N gamma ray activity. Iranian Journal of Physics Research, 4(2), 183-190.
MLA
M Azizi Shamami, , , H Ghods, , , J Rahighi, , and J Dabiri, . "Power measurement in Tehran research reactor (TRR) using 16N gamma ray activity", Iranian Journal of Physics Research, 4, 2, 2019, 183-190.
HARVARD
M Azizi Shamami , H Ghods , J Rahighi , J Dabiri (2019). 'Power measurement in Tehran research reactor (TRR) using 16N gamma ray activity', Iranian Journal of Physics Research, 4(2), pp. 183-190.
CHICAGO
M Azizi Shamami, H Ghods, J Rahighi and J Dabiri, "Power measurement in Tehran research reactor (TRR) using 16N gamma ray activity," Iranian Journal of Physics Research, 4 2 (2019): 183-190,
VANCOUVER
M Azizi Shamami , H Ghods , J Rahighi , J Dabiri Power measurement in Tehran research reactor (TRR) using 16N gamma ray activity. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 4(2): 183-190.
