A Mach–Zehnder Fabry–Perot Hybrid Fibre-Optic Interferometer for a Large Measurement Range Based on the Kalman Filter

Wang, Yixuan; Yang, Peigang; Jin, Tao

doi:10.3390/opt5020020

Optics

2024

DOI: 10.3390/opt5020020

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A Mach–Zehnder Fabry–Perot Hybrid Fibre-Optic Interferometer for a Large Measurement Range Based on the Kalman Filter

Yixuan Wang,

Peigang Yang,

Tao Jin

Abstract: To solve the short working distance and small measurement range of an all-fibre interferometer, we proposed a Mach–Zehnder Fabry–Perot hybrid fibre-optic interferometry system based on sinusoidal phase modulation. In this paper, a low-finesse fibre interferometer with a larger linear operating range for displacement measurement is realised using a self-collimating probe and incorporating a Kalman filter-based phase demodulation algorithm. Through experimental comparisons, it is demonstrated that the interferom… Show more

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Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO₂ and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

Aldosari,

Sefrji,

Alsharari

et al. 2024

Luminescence

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This study investigates the optical, mechanical, and antimicrobial properties of polypropylene (PP) fibers enhanced with titanium dioxide (TiO2) and zinc oxide (ZnO) nanoparticles. Using a Mach–Zehnder interferometric system, we examined the refractive indices, birefringence, and opto‐mechanical behavior of blank PP, PP/TiO2, and PP/ZnO nanocomposite fibers under various conditions, including different polarization orientations and during cold drawing processes. The 2D Fourier transform algorithm is employed to analyze interferometric data, enabling precise measurements of refractive index profiles and birefringence. Results show that both TiO2 and ZnO nanoparticles significantly enhance the optical and mechanical properties of PP fibers. PP/TiO2 fibers exhibited the highest refractive index (1.530) and birefringence (0.0459), followed by PP/ZnO (1.522 and 0.040) and blank PP (1.520 and 0.031). The maximum draw ratios achieved were 4.2, 3.9, and 3.5 for PP/TiO2, PP/ZnO, and blank PP fibers, respectively, indicating improved mechanical properties in the nanocomposites. Antimicrobial efficacy was evaluated using the shaking flask method and optical density measurements against Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Candida albicans. PP/ZnO fibers demonstrated the highest antimicrobial activity, with growth reductions ranging from 64.8% to 80.4%, followed by PP/TiO2 fibers (56.0% to 70.3%).

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Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO₂ and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

Aldosari,

Sefrji,

Alsharari

et al. 2024

Luminescence

View full text Add to dashboard Cite

show abstract

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A Mach–Zehnder Fabry–Perot Hybrid Fibre-Optic Interferometer for a Large Measurement Range Based on the Kalman Filter

Cited by 1 publication

References 30 publications

Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO₂ and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO₂ and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

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A Mach–Zehnder Fabry–Perot Hybrid Fibre-Optic Interferometer for a Large Measurement Range Based on the Kalman Filter

Cited by 1 publication

References 30 publications

Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO2 and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO2 and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

Contact Info

Product

Resources

About

Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO₂ and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis

Optical, Opto‐Mechanical, and Antimicrobial Characterization of TiO₂ and ZnO‐Enhanced Polypropylene Fibers Using Interferometric Techniques and Fourier Transform Analysis