Your search keyword '"Tilted fiber Bragg gratings"' showing total 18 results

1. Unraveling Plasmonic Tilted Fiber Bragg Gratings (TFBG): A Journey From “Anomalous Resonances” to Refined Refractometry.

Author

Fasseaux, Hadrien, Caucheteur, Christophe, and Loyez, Médéric

Subjects

*FIBER Bragg gratings, *FREQUENCY combs, *OPTICAL fibers, *DEMODULATION, *MACHINE learning, *FOURIER analysis

Abstract

Plasmonic tilted fiber Bragg gratings (TFBGs) have emerged as versatile tools for refractometric analyses and biochemical sensing. Their applications have significantly blossomed these last years, from proteins and cellular bioassays to operando monitoring in batteries, to cite just a few. They are widely recognized for their cutting‐edge performance and low limits of detection, arising from their dense multimodal spectral nature featuring tens of narrowband cladding mode resonances. Their comb‐like spectrum is so rich that numerous demodulation techniques have been reported, without benchmark of their relative performance while they possess important distinctions. This review highlights developments in detangling techniques from the pioneering works based on single‐peak analysis up to the most recent approaches involving Fourier analysis, the implementation of machine learning, and cascaded spectral decomposition processes. To fairly compare the different techniques of the literature, we implemented each analysis on original experimental refractometric calibrations, revealing the assets of the most updated methods. This paper therefore reviews these demodulation techniques based on the same datasets, obtained under the same conditions. We show and discuss the results obtained from bioassays and pinpoint the importance of advanced analytical methodologies to maximize the reproducibility, reliability and performance of plasmonic‐based TFBGs biosensors. [ABSTRACT FROM AUTHOR]

Published

2024

2. Polarization Influence on Algorithms of TFBG Sensors Data Analysis for Bending Application.

Author

Cięszczyk, Sławomir and Harasim, Damian

Subjects

PARTIAL least squares regression, FIBER Bragg gratings, DATA analysis, FLAMMABLE gases, ALGORITHMS, DETECTORS

Abstract

Featured Application: The research results could find applications in many areas where measurement of bending radius or distance between elements is required in harsh environments with explosion danger or in flammable gases atmospheres. The use of optical fibers and light as a information medium eliminates the danger of sparks and explosions as a results. In this article we deal with the influence of polarization on determining the bending radius in TFBG (tilted fiber Bragg grating) sensors. The spectrum of TFBG structures changes under the influence of many factors at the same time. In the case of bending radius measurements, additional factors may be the temperature and polarization state of the introduced light. So far, only the cladding mode envelope algorithm has been used to determine the bending radius. An interesting issue seems to be establishing the influence of cross-sensitivity of the spectrum on changes in polarization during bending measurements. In addition to the envelope algorithm, algorithms for spectral length and average deviation from the local mean were examined. As a result of the analysis of experimental data, it was found that the level of polarization's influence on the result may be significant in determining the bending radius. Reducing the influence of polarization can be achieved by using algorithms providing wavelength parameters. Additionally, in order to reduce the influence of polarization, we proposed the use of the PLS (partial least squares regression) algorithm for the processed spectrum. [ABSTRACT FROM AUTHOR]

Published

2023

3. IDENTIFICATION OF CLADDING MODES IN SMF-28 FIBERS WITH TFBG STRUCTURES.

Author

Kisała, Piotr, Kalizhanova, Aliya, Kozbakova, Ainur, and Yeraliyeva, Bakhyt

Subjects

*FIBER Bragg gratings, *LABORATORIES, *OPTICAL fiber detectors, *OPTICAL measurements, *FIBERS

Abstract

This article proposes an unequivocal method of labeling and numbering the cladding modes propagating in single-mode opticalwaveguides with tilted periodic structures. The unambiguous determination of individual propagating modes in this type of optical fiber is crucial for their use in sensory systems. The selection of the appropriate spectral range and mode determines the sensitivity and measuring range of tilted fiber Bragg grating (TFBG) sensors. The measurement methods proposed by individual research teams using TFBGs as transducers are usually based on the selection of specific modes. Unification of the labeling of modes and their numbering enables comparison of the basic metrological parameters of individual measurement methods and reproduction and verification of the proposed sensors and methods in the laboratories of other scientific and research centers. [ABSTRACT FROM AUTHOR]

Published

2023

4. High-sensitive glucose sensor based on tilted fiber Bragg gratings.

Author

Xu, Feng, Dai, Ruichen, Guo, Yutao, Hu, Mengying, Wang, Xin, and Zhao, Yunhe

Subjects

*GLUCOSE, *GLUCOSE analysis, *FIBER Bragg gratings, *REFRACTIVE index, *DETECTORS

Abstract

In this paper, we proposed a high-sensitive glucose sensor using the tilted fiber Bragg gratings (TFBGs). The TFBGs with different tilt angle has been fabricated by phase mask scanning method with an argon ion double-frequency 244 nm laser. As tilt angle increases, the bandwidth of the cladding mode excited by TFBGs gradually expands and cladding mode region shifts towards shorter wavelengths. The higher-order cladding modes appeared at the shorter wavelength side demonstrate a larger separation in the spectrum. TFBGs with different tilt angles for glucose concentration measurement have been investigated experimentally. When the concentration of glucose solution increases, the surrounding refractive index changing make the cut-off mode resonance shift to a longer wavelength. In addition, the tilt angle of TFBGs does affect the glucose sensitivity, that the larger tilt angle is, the higher sensitivity could achieve. In this work, a maximum glucose sensitivity of 80.91 pm/(mg/ml) could be obtained for TFBGs with tilt angle of 10°. The proposed TFBGs with superiorities of high glucose sensitivity and wider detection range, makes it potential for glucose detection in the field of chemical and biomedical sensing. • A high-sensitive glucose sensor based on tilted fiber Bragg gratings (TFBGs) is proposed, with detailed spectral analysis. • The cut-off mode resonance shows a red-shift with glucose concentration increasing, proving the potential in glucose detection. • The glucose sensitivity of TFBGs varies with tilt angle, which could achieve 80.91 pm/(mg/ml) with 10° TFBGs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Machine learning approach for automated data analysis in tilted FBGs.

Author

Leal-Junior, Arnaldo, Avellar, Leandro, Frizera, Anselmo, Caucheteur, Christophe, and Marques, Carlos

Subjects

*MACHINE learning, *STANDARD deviations, *FIBER Bragg gratings, *DATA analysis, *K-nearest neighbor classification, *PRINCIPAL components analysis

Abstract

• Machine learning approach for automatic estimation of responses using different TFBGs. • Estimation based on the optical spectral characteristics of TFBGs as a function of RI. • Root mean squared errors as small as 0.008 RIU for the trained samples. • The approach can be used to enhance the reproducibility of large set of TFBG sensors. This paper presents the development of an approach for automatic estimation of the regression coefficients as a function of the refractive index (RI) in Tilted Fiber Bragg Gratings (TFBGs) based on their optical spectral characteristics. The methodology is based on machine learning approach, where different samples are analyzed in various test conditions to obtain a dataset for the training of a kNN regression algorithm. In this case, the spectral characteristics related to the wavelength spacing between adjacent cladding mode resonances, number of valleys and amplitude of the normalized spectra are correlated with the linear regression algorithm for RI estimation using the machine learning approach. The analysis are performed as a function of the wavelength shift and optical power, considering two regions on the transmitted spectrum and the envelope of the curve. Furthermore, the number of valleys and the area of the envelope curve are also analyzed as a function of the refractive index, which result in six analyzed features. The Principal Components Analysis (PCA) is used to reduce the number of features to two principal components. The results of the proposed algorithm are obtained with different trained and untrained samples, which indicates a root mean squared error (RMSE) of around 0.003 RIU for the trained samples and 0.008 RIU for the untrained ones. Therefore, the results indicate the usefulness of the proposed approach, which can be used to enhance the reproducibility of large set of TFBG sensors in practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

6. Saturable Absorption and Bistable Switching of Single Mode Fiber Core‐Guided Light by a 6 nm‐thick, Few Layers Graphene Coating on the Cladding Surface.

Author

Liu, Fu, Qi, Mei, Guo, Tuan, and Albert, Jacques

Subjects

*FIBER Bragg gratings, *GRAPHENE, *SURFACE coatings, *LIGHT absorption, *OPTICAL gratings, *OPTICAL fibers, *DIARYLETHENE, *SILICA fibers

Abstract

The coupling of less than 80 µW of in‐plane polarized near‐infrared light in a 6 nm‐thick graphene layer deposited on an optical fiber produces important permittivity changes leading to bistability and self‐starting 50% modulation of over 1 W of continuous wave light in the core. These features arise from resonant coupling of core‐guided light into the cladding by a 12‐degree tilted, 1 cm long fiber Bragg grating via narrowband, polarization‐dependent resonances that allow the selection of cladding modes with electric fields polarized in the plane of the graphene. The pulse repetition rate of the modulation increases from 10 to 269 Hz for input powers ranging from 0.3 to 1.33 W in the core, with no evidence of saturation. Investigations into the origin of these effects through physical modelling and different experimental conditions point to photo‐induced Joule heating in the graphene layer giving rise to temperature increases of the order of 60 °C and corresponding permittivity changes in the graphene and underlying silica fiber. Those changes lead to shifts in the resonance positions which result in the equivalent of saturable absorption for light guided in the core without direct contact with the absorbing graphene layer. [ABSTRACT FROM AUTHOR]

Published

2020

7. Inscription of superimposed tilted fiber Bragg gratings.

Author

Konnov, Kirill A., Varzhel, Sergey V., Gribaev, Alexey I., Cherepanov, Andrey D., Doubenskaia, Maria A., and Meshkovskiy, Igor K.

Subjects

*FIBER Bragg gratings, *INSCRIPTIONS, *OPTICAL fibers, *EXCIMER lasers

Abstract

This study focuses on the tilted fiber Bragg gratings. The paper describes the method of their inscription into optical fiber using the Talbot interferometer and KrF excimer laser system. The method allows precise selection of the resonant wavelengths and tilt angles of the created structures in a wide range of values. In course of the study, an original method was proposed for inscription of a superposition comprising two structures being identical in parameters but having the opposite tilt angles of grating strokes relative to the optical fiber cross-section. The described method makes it possible to compensate the decrease in the reflective efficiency of fiber Bragg gratings with an increase in their tilt angle. [ABSTRACT FROM AUTHOR]

Published

2020

8. Ge-Sb-Se-Te -coated tilted fiber Bragg gratings sensor for the refractive index measurement of transformer oils.

Author

Udos, Waldo, Ooi, Cheong-Weng, Kah Hong Goh, Benedict, Lim, Kok-Sing, Aizam Talib, Mohd, Azil Illias, Hazlee, Kumar Mishra, Akhilesh, and Ahmad, Harith

Subjects

*REFRACTIVE index, *FIBER Bragg gratings

Abstract

• The GSST-TFBG has an extended SRI range, and the resonance amplitudes remain strong and detectable beyond the cut-off point. • The s-mode resonances are practically insensitive whereas the p-mode remains sensitive to the changes of SRI. • Refractive index measurement for transformer oil using GSST-coated TFBG. In this work, a tilted fiber Bragg gratings coated with a 130 nm thick Ge-Sb-Se-Te (GSST) layer, a high refractive index soft glass had been fabricated and demonstrated for the refractometric test of transformer oil. The findings indicated that the introduction of the high refractive index coating had enhanced the polarization property and extended the refractive index detection range of the tilted fiber Bragg gratings beyond the cut-off point of the cladding modes. In the experiment with transformer oils, the Ge-Sb-Se-Te -coated tilted fiber Bragg gratings has shown a good linear sensitivity of 9.952 dB/RIU for the refractive index range of 1.472–1.484 RIU. [ABSTRACT FROM AUTHOR]

Published

2023

9. Selective fiber optic TFBG-assisted biosensors featuring functional coatings.

Author

Tomyshev, Kirill, Dolzhenko, Egor I., Vasilyeva, Alexandra D., Yurina, Lyubov V., and Butov, Oleg V.

Subjects

*BIOSENSORS, *SURFACE coatings, *REFRACTIVE index, *OPTICAL fiber detectors, *FIBER Bragg gratings

Abstract

The paper reports on the results of the development of tilted fiber Bragg grating-assisted selective biosensors. The main sensing principle is based on the dependence of an optical evanescent field parameters on the composition of the medium under study. Sensors feature functional coatings of antibodies against protein molecules common in blood composition – fibrinogen and D -dimer. The work explores and clearly demonstrates the selective sensitivity of sensors to specific proteins by the example of simultaneous measurements using a pair of sensors functionalized with different antibodies. [Display omitted] • Fiber sensors with functional coatings provide for specific detection of proteins. • Complex processes in biological solutions affect the refractive index unpredictably. • Differential signal of two similar sensors could be used as a mean of detection. • Specific binding of an antigen to a functional coating can change layers' geometry. [ABSTRACT FROM AUTHOR]

Published

2023

10. Gasoline Quality Sensor Based on Tilted Fiber Bragg Gratings

Author

Stenio Aristilde, Cristiano M. B. Cordeiro, and Jonas H. Osório

Subjects

fiber optics, fiber optics sensors, fiber Bragg gratings, tilted fiber Bragg gratings, Applied optics. Photonics, TA1501-1820

Abstract

We report on the study of an intensity-based optical fiber sensor for gasoline quality monitoring. The sensor setup employs two Bragg gratings with different spectral responses to interrogate the optical response of a tilted Bragg grating. The sensor operation is based on the tilted Bragg grating sensitivity to external refractive index changes, which are translated as power variations by the interrogation scheme. Gasoline–ethanol solutions with concentrations ranging from 0% to 60% ethanol were used to demonstrate the sensor performance. The results allowed to estimate that the sensor is able, within its resolution limit, to detect ethanol concentration variations of 1.5% in gasoline–ethanol solutions and discriminate temperature variations of 0.5 °C. The all-optical sensor setup is compact and robust, making it a competitive alternative for the realization of fuel quality analyses in practical applications.

Published

2019

11. Polatization-insensitive refractive index measurement using cascaded perpendicular tilted fiber Bragg gratings.

Author

Harasim, Damian

Subjects

*REFRACTIVE index, *FIBER Bragg gratings, *OPTICAL polarization, *BRAGG gratings, *BREWSTER'S angle, *OPTICAL fiber detectors

Abstract

• The method for refractive index measurement using cascaded TFBGs is presented. • Proposed method allows to significant reduction of interferences from input light polarization. • Sensitivity of proposed setup is compared to conventional setup. • Influence of the input light polarization is reduced by 90% compared to single TFBG. This paper presents a possibility to improve the reliability of the measurement of the liquid solution refractive index using tilted fiber Bragg gratings (TFBGs) under various inputs of light polarization angle. The application of a specialized setup of cascaded TFBGs provides a great improvement in the stability of cladding resonances under various light polarization. In the present paper, the analysis of the amplitude of the cut-off cladding mode shows that the dependence of this parameter in the case of the proposed structure is reduced by 96.101% compared with a single TFBG with the same internal tilt angle of 7° and a depth of periodic refractive index perturbations. Stabilization of the spectra under various polarizations of inputted light could be observed in the case of all cladding modes, which could be used to improve the surrounding refractive index (SRI) measurement over a wider range. [ABSTRACT FROM AUTHOR]

Published

2022

12. Gasoline quality sensor based on tilted fiber Bragg gratings

Author

Aristilde, Stenio, 1984, Cordeiro, Cristiano Monteiro de Barros, 1973, Osório, Jonas Henrique, 1989, and UNIVERSIDADE ESTADUAL DE CAMPINAS

Subjects

Interferômetros, Interferometers, Fibras óticas, Fiber optics sensors, Fiber Bragg gratings, Tilted fiber Bragg gratings, Artigo original, Optical fibers

Abstract

Agradecimentos: This research was partially funded by the São Paulo Research Foundation (FAPESP) (#2014/50632-6). J.H.O. gives thanks to CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico) for financial support Abstract: We report on the study of an intensity-based optical fiber sensor for gasoline quality monitoring. The sensor setup employs two Bragg gratings with different spectral responses to interrogate the optical response of a tilted Bragg grating. The sensor operation is based on the tilted Bragg grating sensitivity to external refractive index changes, which are translated as power variations by the interrogation scheme. Gasoline-ethanol solutions with concentrations ranging from 0% to 60% ethanol were used to demonstrate the sensor performance. The results allowed to estimate that the sensor is able, within its resolution limit, to detect ethanol concentration variations of 1.5% in gasoline-ethanol solutions and discriminate temperature variations of 0.5 degrees C. The all-optical sensor setup is compact and robust, making it a competitive alternative for the realization of fuel quality analyses in practical applications CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP Aberto

Published

2019

13. Fabrication and Characterization of Line-by-Line Inscribed Tilted Fiber Bragg Gratings Using Femtosecond Laser.

Author

Li, Hongye, Zhao, Xiaofan, Rao, Binyu, Wang, Meng, Wu, Baiyi, and Wang, Zefeng

Subjects

*FIBER Bragg gratings, *FIBER lasers, *TORSION, *FEMTOSECOND lasers

Abstract

In this paper, we studied the basic characteristics of tilted fiber Bragg gratings (TFBGs), inscribed line-by-line. Experimental results showed that if the TFBGs were located within different planes parallel to the fiber axis, the spectra performed differently. For 2°TFBG, if it was located near the central plane, the Bragg resonance was stronger than ghost mode resonance, and the order reversed if it was located near the boundary between core and cladding. As the tilted angle increased, the range of cladding mode resonance increased. When the tilted angle was larger than 12°, the birefringence effect was observed. Based on the birefringence phenomenon, torsion characteristics were experimentally studied; the sensitivity was about 0.025 dB/degree in the linear variation range. The harmonic order of TFBGs also affected the transmission spectrum. Leaky mode resonance was observed in the 8th order TFBG, and torsion (or polarization) influenced the spectrum of the 8th order TFBG. Our research represented the theory of line-by-line inscribed TFBGs and provided an inscription guidance for TFBGs. [ABSTRACT FROM AUTHOR]

Published

2021

14. The manufacturing process and spectral features of tilted fiber Bragg gratings.

Author

Wen, Hsin-Yi, Hsu, Ya-Chun, Chen, Sz-Yu, and Chiang, Chia-Chin

Subjects

*FIBER Bragg gratings, *MANUFACTURING processes, *EXPOSURE dose, *REFRACTIVE index, *BRAGG gratings, *EXCIMER lasers

Abstract

• Multiplex cross-sensitive have been implemented through the TFBGs manufacturing process. • Available sensors for biochemical and mechanical that can be caused by a controlled tilted angle and exposure dose. • TFBGs sensing spectra with particular emphasis on cladding, ghost, and Bragg mode have been proposed. The controllable cross-sensitivities of tilted fiber Bragg gratings (TFBGs) are strongly related to the control of the parameters during the manufacturing process. The TFBG spectrum characterization, which can demonstrate cross-sensitivities, is controlled by the process parameters. Cross-sensitivities analyses in biochemical surrounding refractive index (SRI) (cladding mode) and mechanical sensing (Bragg and ghost mode) are evaluated through processing parameters, including the rotating tilted angles of phase-mask, laser exposure dose time, and reducing fiber diameters. The results of this study show the cross-sensing ability in both biochemical and mechanical sensing that can be caused by a controlled tilted angle was 10° and exposure dose of five minutes while obtaining the cladding and Bragg modes of TFBGs with broad spectral coverage. [ABSTRACT FROM AUTHOR]

Published

2021

15. Gasoline Quality Sensor Based on Tilted Fiber Bragg Gratings

Author

Cristiano M. B. Cordeiro, Stenio Aristilde, and Jonas H. Osório

Subjects

lcsh:Applied optics. Photonics, Materials science, Optical fiber, Physics::Optics, fiber optics sensors, 01 natural sciences, law.invention, 010309 optics, Quality (physics), Optics, Fiber Bragg grating, law, 0103 physical sciences, Radiology, Nuclear Medicine and imaging, Sensitivity (control systems), Physics::Chemical Physics, Instrumentation, fiber optics, tilted fiber Bragg gratings, business.industry, 010401 analytical chemistry, lcsh:TA1501-1820, Ranging, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Power (physics), Fiber optic sensor, fiber Bragg gratings, business, Refractive index

Abstract

We report on the study of an intensity-based optical fiber sensor for gasoline quality monitoring. The sensor setup employs two Bragg gratings with different spectral responses to interrogate the optical response of a tilted Bragg grating. The sensor operation is based on the tilted Bragg grating sensitivity to external refractive index changes, which are translated as power variations by the interrogation scheme. Gasoline&ndash, ethanol solutions with concentrations ranging from 0% to 60% ethanol were used to demonstrate the sensor performance. The results allowed to estimate that the sensor is able, within its resolution limit, to detect ethanol concentration variations of 1.5% in gasoline&ndash, ethanol solutions and discriminate temperature variations of 0.5 &deg, C. The all-optical sensor setup is compact and robust, making it a competitive alternative for the realization of fuel quality analyses in practical applications.

Published

2019

16. Method for Determining the Plasmon Resonance Wavelength in Fiber Sensors Based on Tilted Fiber Bragg Gratings.

Author

Manuylovich, Egor, Tomyshev, Kirill, and Butov, Oleg V.

Subjects

*FIBER Bragg gratings, *PLASTIC optical fibers, *OPTICAL gratings, *RESONANCE, *DETECTORS, *OPTICAL fiber detectors, *WAVELENGTHS

Abstract

Surface plasmon resonance-based fiber-optic sensors are of increasing interest in modern sensory research, especially for chemical and biomedical applications. Special attention deserves to be given to sensors based on tilted fiber Bragg gratings, due to their unique spectral properties and potentially high sensitivity and resolution. However, the principal task is to determine the plasmon resonance wavelength based on the spectral characteristics of the sensor and, most importantly, to measure changes in environmental parameters with high resolution, while the existing indirect methods are only useable in a narrow spectral range. In this paper, we present a new approach to solving this problem, based on the original method of determining the plasmon resonance spectral position in the automatic mode by precisely calculating the constriction location on the transmission spectrum of the sensor. We also present an experimental comparison of various data processing methods in both a narrow and a wide range of the refractive indexes. Application of our method resulted in achieving a resolution of up to 3 × 10−6 in terms of the refractive index. [ABSTRACT FROM AUTHOR]

Published

2019

17. Optical Fiber Gratings Immunoassays.

Author

Loyez, Médéric, Lobry, Maxime, Wattiez, Ruddy, and Caucheteur, Christophe

Subjects

*OPTICAL gratings, *OPTICAL fibers, *FIBER Bragg gratings, *IMMUNOASSAY, *AUTORADIOGRAPHY, *DETECTION limit

Abstract

Optical fibers are of growing interest for biosensing, especially for point-of-care and biomedical assays. Their intrinsic properties bestow them sought-after assets for the detection of low concentrations of analytes. Tilted fiber Bragg gratings (TFBGs) photo-inscribed in the core of telecommunication-grade optical fibers are known to be highly-sensitive refractometers. In this work, we present different strategies to use them for label-free immunoassays. Bare, gold-sputtered, gold-electroless-plated (ELP) and hybrid configurations are biofunctionalized with antibodies, aiming at the detection of cancer biomarkers. We discuss the relative performances of the tested configurations and show that each leads to singular key features, which therefore drives their selection as a function of the target application. The most sensitive configuration presents a limit of detection of 10−12 g/mL in laboratory settings and was successfully used ex vivo in freshly resected lung tissues. [ABSTRACT FROM AUTHOR]

Published

2019

18. Gasoline Quality Sensor Based on Tilted Fiber Bragg Gratings.

Author

Aristilde, Stenio, Cordeiro, Cristiano M. B., and Osório, Jonas H.

Subjects

FIBER Bragg gratings, GASOLINE, OPTICAL fiber detectors, BRAGG gratings, SPECTRAL sensitivity, FUEL quality

Abstract

We report on the study of an intensity-based optical fiber sensor for gasoline quality monitoring. The sensor setup employs two Bragg gratings with different spectral responses to interrogate the optical response of a tilted Bragg grating. The sensor operation is based on the tilted Bragg grating sensitivity to external refractive index changes, which are translated as power variations by the interrogation scheme. Gasoline–ethanol solutions with concentrations ranging from 0% to 60% ethanol were used to demonstrate the sensor performance. The results allowed to estimate that the sensor is able, within its resolution limit, to detect ethanol concentration variations of 1.5% in gasoline–ethanol solutions and discriminate temperature variations of 0.5 °C. The all-optical sensor setup is compact and robust, making it a competitive alternative for the realization of fuel quality analyses in practical applications. [ABSTRACT FROM AUTHOR]

Published

2019