Title :
Prediction of Corning InfiniCor 300 Optical Fiber Attenuation at Low Gamma Dose Rates
Author :
Holbert, Keith E. ; Heger, A. Sharif ; Geschke, D. Michael ; Stewart, Ryan M.
Author_Institution :
Dept. of Electr. Eng., Arizona State Univ., Tempe, AZ
Abstract :
Experiments using dose rates of 40 and 1270 rads/min from Co-60 and dual optical wavelengths, 850 and 1310 nm, are conducted to estimate fiber optic attenuation at other dose rates using low order kinetics models. The irradiation-induced attenuation is fit to power and saturating exponential models. The 1310 nm data exhibit a linearly increasing term with the saturating exponential whereas the 850 nm results do not. Representation of the long-term low-dose-rate induced attenuation is an impetus for developing a difference equation fitting routine that better characterizes the signal loss and has the capability of predicting the attenuation at saturation.
Keywords :
cobalt; differential equations; gamma-ray effects; optical fibre losses; Co; Corning InfiniCor 300 optical fiber attenuation; difference equation fitting routine; gamma-ray effects; irradiation-induced attenuation; low gamma dose rate; low order kinetics; optical fiber radiation effects; photon radiation effects; signal loss; wavelength 850 nm to 1310 nm; Inductors; Kinetic theory; Optical attenuators; Optical fiber cables; Optical fibers; Optical pulses; Optical saturation; Optical sensors; Pulse measurements; Radiation effects; Gamma-ray effects; optical fiber cables; optical fiber radiation effects; photon radiation effects;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2008.2005904
