Collapsed optical fiber: A novel method for improving thermoluminescence response of optical fiber

• Published in: Journal of luminescence Vol. 161; pp. 442 - 447
• Main Authors: Mahdiraji, G. Amouzad, Adikan, F.R. Mahamd, Bradley, D.A.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.05.2015
• Subjects: Glow curve; Optical fiber application; Optical fiber fabrication; Radiation dosimeter; Thermoluminescence; Radiation dosimeter; Optical fiber fabrication; Glow curve; Optical fiber application; Thermoluminescence
• ISSN: 0022-2313; 1872-7883
• DOI: 10.1016/j.jlumin.2015.01.021

A new technique is shown to provide improved thermoluminescence (TL) response from optical fibers, based on collapsing down hollow capillary optical fibers (COF) into flat fibers (FF), producing fused inner walls and consequent defects generation. Four different fused silica preform tubes are used to fabricate in-house COFs and FFs, i.e., ultra-pure (F300), relatively pure silica (PS), germanium-doped (Ge), and Ge–Boron-doped (GeB). The optical fibers are then subjected to 6MeV electron irradiation. While the results show similar TL response from F300-COF and -FF, the TL response of PS-COF is improved by a factor of 6 by collapsing it down to a FF. By doping Ge into the F300 tube, the TL response of the resultant Ge-COF shows an improvement of 3 times over that of F300-COF, while an improvement of a factor of 12 is obtained by producing a Ge-FF. In GeB preform, by collapsing the capillary fiber into a FF, an improvement in TL response of 31 times that of GeB-COF is obtained. TL glow curve analysis shows an additional peak to be generated in the FFs compared to that observed in the COFs. The TL intensity value of the new peak is significantly increased in the doped FFs compared to the undoped FFs. The results suggest that defects generation occurs as a result of the fusing/collapsing technique, providing a TL response from the optical fibers that can substantially improve upon that of existing TL system sensitivities. •A new method for increasing TL response of optical fiber is presented.•By collapsing capillary fiber wall surface, TL response of the fiber increased.•By adding impurity in the collapsing area, TL response significantly improved.