Wavelength and Phase Detection Based SMS Fiber Sensors Optimized With Etching and Nanodeposition

Goñi

Vicente

et al. 2019

J. Lightwave Technol.

Self Cite

The application of an etching process in a singlemode multimode single-mode (SMS) fiber allows monitoring the change of refractive index of wind turbine gearbox oil due to temperature and degradation with a limitation at short temperatures, where the transmission and attenuation bands in the optical spectrum fade. The application of a black tin oxide nanocoating solves this issue and allows tuning the refractive index region where the sensitivity is maximum. The SMS was designed for operating at short wavelengths, where the setup is less expensive. The experimental results were contrasted with a theoretical analysis developed with FIMMWAVE, which allowed understanding better the phenomena involved in the experiments. Index Terms-optical fiber sensors, single-mode multimode single-mode (SMS), low cutoff single-mode fiber, thin films, wind turbine prognosis.

Section: Methodsmentioning

confidence: 99%

Etched and Nanocoated Single-Mode Multimode Single-Mode (SMS) Fibers for Detection of Wind Turbine Gearbox Oil Degradation

Goñi

Vicente

et al. 2019

J. Lightwave Technol.

Self Cite

“…This effect is attributed to the fiber cross section, which is not completely round in a fiber reduced from 125 to 30 µm, as it has been proved in [8], whereas the etching from 80 to 30 µm is softer and, consequently, the double band in DTP mode (see Figure 4b) is visible without the interference of additional bands.…”

Section: Discussionmentioning

confidence: 55%

Monitoring the Etching Process in LPFGs towards Development of Highly Sensitive Sensors

Proceedings of Eurosensors 2017, Paris, France, 3–6 September 2017

Cruz

Socorro

et al. 2017

Abstract:In this work, the monitoring of the etching process up to a diameter of 30 µm of two LPFG structures has been compared, one of them had initially 125 µm, whereas the second one had 80 µm. By tracking the wavelength shift of the resonance bands during the etching process it is possible to check the quality of etching process (the 80 µm fibre performs better than de 125 µm fibre), and to stop for a specific cladding mode coupling, which permits to obtain an improved sensitivity compared to the initial structure.

“…Another important question is why the depth of the attenuation bands increases in the output from the simulation ( Figure 3 b), whereas this was not observed in the experimental data ( Figure 3 a). The reason can be found in the shape of the cross section of the etched optical fiber, which was also analyzed in Figure 10a of [ 14 ]. This image is reproduced in Figure 4 b in order to illustrate the non-round shape of the optical fiber after etching.…”

Section: Resultsmentioning

confidence: 99%

Sensitivity Enhancement in Low Cutoff Wavelength Long-Period Fiber Gratings by Cladding Diameter Reduction

Partridge

Rodríguez

et al. 2017

Sensors

Self Cite

The diameter of long-period fiber gratings (LPFGs) fabricated in optical fibers with a low cutoff wavelength was be reduced by hydrofluoric acid etching, enhancing the sensitivity to refractive index by more than a factor of 3, to 2611 nm/refractive index unit in the range from 1.333 to 1.4278. The grating period selected for the LPFGs allowed access to the dispersion turning point at wavelengths close to the visible range of the optical spectrum, where optical equipment is less expensive. As an example of an application, a pH sensor based on the deposition of a polymeric coating was analyzed in two situations: with an LPFG without diameter reduction and with an LPFG with diameter reduction. Again, a sensitivity increase of a factor of near 3 was obtained, demonstrating the ability of this method to enhance the sensitivity of thin-film-coated LPFG chemical sensors.