Title :
Turnaround-Point Long-Period Fiber Gratings (TAP-LPGs) as High-Radiation-Dose Sensors
Author :
Kher, Sanjay ; Chaubey, Smita ; Kashyap, Raman ; Oak, Shrikant Madhusudan
Author_Institution :
Fiber Opt. Lab., Raja Ramanna Centre for Adv. Technol., Indore, India
fDate :
5/1/2012 12:00:00 AM
Abstract :
This letter reports the application of turnaround-point (TAP) long-period gratings (LPGs) for radiation dosimetry. The LPGs were realized using the laser-writing technique. After a gamma dose of 6 kGy, the TAP-LPGs show a radiation-induced shift of more than 35 nm for each of the dual resonance dips, which is the highest shift reported to date for any type of fiber gratings. These LPGs can therefore be used as radiation sensors down to doses of a few Gy with modest wavelength-resolving instrumentation. The LPGs show significant sensitivity of wavelength shifts up to 80 nm for a dose of 65 kGy. We attribute the very high radiation sensitivity to near-TAP operation and doping of Boron in the fiber. This should open up applications of LPGs to radiation dosimetry.
Keywords :
boron; diffraction gratings; dosimetry; fibre optic sensors; high radiation dose sensors; laser writing technique; radiation absorbed dose 6 kGy; radiation absorbed dose 65 kGy; radiation dosimetry; turnaround-point long period fiber gratings; wavelength resolving instrumentation; Fiber gratings; Fiber lasers; Optical fiber dispersion; Optical fiber sensors; Optical fibers; Sensitivity; Phase-matching curves (PMC); radiation dose; sensor; turnaround-point long-period gratings (TAP-LPGs);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2012.2187637
