An Experimental Approach of Fibre Optics Refractometers
DOI:
https://doi.org/10.61841/3fwg0a94Keywords:
SPR, FBG, OSA, Sensors, RI, PlasmaAbstract
Refractometers are optical devices that measures the refractive index of the multiple transparent and semi-transparent resources either of solid or liquid state. Traditional refractometers operates on the principle of measuring “an optical critical angle”, “Brewster’s angle”, “angular deviation of the light beam” etc. According to the last few decades, there is a speedy growth in the sensing technology of the fibre optics techniques led for developing the fibre optics refractometer. Within comparison sensors performs multiple recompenses to the traditional refractometers. In this literature, a brief assessment of few fibre optic refractometers are reported. These reviews entails detailed and accurate knowledge to the readers of the working principles, constructional methods and distinctive features of multiple fibres optic refractometers as reported till date.
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References
[1] M. Gulmini, A. Idone, E. Diana, D. Gastaldi, D. Vaudan, and M. Aceto, “Identification of dyestuffs in
historical textiles: Strong and weak points of a non-invasive approach,” Dye. Pigment., 2013.
[2] I. T. Leite et al., “Three-dimensional holographic optical manipulation through a high-numerical-aperture softglass multimode fibre,” Nat. Photonics, 2018.
[3] M. Kreysing et al., “Dynamic operation of optical fibres beyond the single-mode regime facilitates the
orientation of biological cells,” Nat. Commun., 2014.
[4] J. M. O. Daniel, N. Simakov, A. Hemming, W. A. Clarkson, and J. Haub, “Metal clad active fibres for power
scaling and thermal management at kW power levels,” Opt. Express, 2016.
[5] S. M. Choi, S. F. Wong, Y. Chang, and M. C. Park, “Analysis of the dynamic broadband technology
competition Implications for national information infrastructure development,” Ind. Manag. Data Syst.,
2016.
[6] C. Ye, D. Zhang, X. Huang, H. Feng, and K. Zhang, “Demonstration of 50Gbps IM/DD PAM4 PON over
10GHz Class Optics Using Neural Network Based Nonlinear Equalization,” in European Conference on
Optical Communication, ECOC, 2017.
[7] H. Usman, M. H. A. Bakar, A. S. Hamzah, and A. B. Salleh, “A tapered fibre optics biosensor for histamine
detection,” Sens. Rev., 2016.
[8] R. J. A. Francis-Jones, R. A. Hoggarth, and P. J. Mosley, “All-fiber multiplexed source of high-purity single
photons,” Optica, 2016.
[9] I. Gusachenko, M. Chen, and K. Dholakia, “Raman imaging through a single multimode fibre,” Opt. Express,
2017.
[10] S. Cavallini et al., “Naturally functionalized silk as useful material for photonic applications,” Compos. Part B
Eng., 2015.
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