Abstract
Tilted fiber Bragg gratings (TFBG) can be used as refractive index sensors, as their cladding modes, amplitude, and wavelength changes with the outer refractive index. However, as cladding modes have bandwidths that are narrower than the resolution of most infrared spectrometers, they can be detected only with an optical spectrum or vector analyzers. In this work, we demonstrate that through ad hoc implementation, the Karhunen-Loeve transform (KLT) algorithm can be used to demodulate a TFBG even using a coarse interrogator (156 pm), whereas cladding modes cannot be discriminated in the TFBG spectrum. We observe that the KLT output results are a reliable indicator to detect refractive index changes up to 1.85 ⋅ 10−3 refractive index units (RIU), down to a resolution of ~10−5 RIU. The KLT can be used to demodulate TFBG sensors and biosensors operating in small refractive index change conditions.
Highlights
Optical fiber refractive index sensors represent an emerging technology for the analysis of the constitutive parameters of fluids and gasses
Experimental results Experiments have been carried out to evaluate the response of the KarhunenLoeve transform (KLT) demodulation to different values of refractive index; we focus our analysis on small variations of refractive index
We presented a method based on KLT to demodulate a tilted fiber Bragg grating (TFBG) sensor for refractive index detection, using a coarse interrogator (156 pm resolution)
Summary
Optical fiber refractive index sensors represent an emerging technology for the analysis of the constitutive parameters of fluids and gasses. A first class of sensors is based on optical gratings and includes tilted fiber Bragg grating (TFBG) [1], etched FBGs (EFBG) [2], long-period grating (LPG) [3] among others; grating-based devices encode the refractive index dependency on the grating spectrum.
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