2021
DOI: 10.1016/j.optlastec.2020.106650
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Regenerated Fibre Bragg Gratings: A critical assessment of more than 20 years of investigations

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Cited by 46 publications
(12 citation statements)
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“…Over the years, the mysterious origin of RFBGs has attracted considerable interest and a number of models have been created to explain it only to find a contradiction in the explanation as new experimental results were produced. According to an excellent review on the history of RFBGs [ 38 ], they were initially referred to as Chemical Composition Gratings [ 15 ] because it was thought that the grating structure was created by the elimination of fluorine at high temperature from the sites in the fibers core where OH was produced under the UV radiation. Later, this explanation evolved into a stress model independent of the presence of fluorine [ 39 ] where UV radiation-induced OH groups enhanced tensile stress at the core-cladding interface that would eventually turn into compressive stress at high temperature, with crystallization also playing a role.…”
Section: High Temperature Fbg Structuresmentioning
confidence: 99%
“…Over the years, the mysterious origin of RFBGs has attracted considerable interest and a number of models have been created to explain it only to find a contradiction in the explanation as new experimental results were produced. According to an excellent review on the history of RFBGs [ 38 ], they were initially referred to as Chemical Composition Gratings [ 15 ] because it was thought that the grating structure was created by the elimination of fluorine at high temperature from the sites in the fibers core where OH was produced under the UV radiation. Later, this explanation evolved into a stress model independent of the presence of fluorine [ 39 ] where UV radiation-induced OH groups enhanced tensile stress at the core-cladding interface that would eventually turn into compressive stress at high temperature, with crystallization also playing a role.…”
Section: High Temperature Fbg Structuresmentioning
confidence: 99%
“…At temperatures above 500 °C, the grating optical properties decay, which is normal for most FBG types, except those designed specifically for higher thermal exposition [ 6 , 7 ] or those treated by regeneration [ 8 , 9 ]. Recent studies explicitly aimed at the regeneration of the grating have focused their efforts on the thermal treatments, defining the thermal stabilization as the FBG regeneration process.…”
Section: Introductionmentioning
confidence: 99%
“…In the literature, FBG regeneration has been developed by means of different techniques such as chemical composition grating (CCG), Tetrahedral FBG (TFBG) and thermal regeneration FBG (RFBG) [ 8 ]. The CCG has been characterized by multiplexing and remote interrogation properties at a high thermal stability.…”
Section: Introductionmentioning
confidence: 99%
“…The temperature sensors applications using optical fiber-based approaches are generally related to FBG sensors, due to their inherent sensitivity to temperature variations. In general, the FBGs are inscribed using UV lasers with holographic/interferometric/phase mask techniques [ 77 ], which typically result in type I gratings that operate in temperatures below around 450 °C, since higher temperatures lead to the erasing of the grating [ 78 ]. To address this issue in high temperature operations, the direct inscription using fs lasers result in the possibility of using such sensors in temperatures close to the ones of the material processing [ 79 ].…”
Section: Flight Environment Sensingmentioning
confidence: 99%