Fujikura introduces newly enhanced FSR-115, FSR-116, and FSR-117 optical fiber recoaters. The recoaters’ new pumping system is up to 2.4 times more efficient during the injection step
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Photonics West 2023
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Follow this Fiber Processing Software (FPS) quick reference guide for the FSM-100 and LZM-100 series splicers.
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Follow this Application Note for the basics of creating a fusion splice recipe with the FSM-100 series fusion splicing machines.
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This white paper explains the different algorithms for LMA fiber core alignment and the different verification methods of core offset at the splice point for different LMA fibers.
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The LZM-125 series consists of splicing glass processing systems and fiber ablation machines that use a CO2 laser heat source to perform splicing, tapering, lensing, ablation and more.
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The Fujikura FSM-100P/P+ specialty fiber fusion splicer now includes a new observation method for fiber rotational alignment.
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This paper presents results obtained by using the high thermal expansion coefficient of the ZBLAN fiber to encapsulate a smaller SiO2 fiber.
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In this paper we present an all fiber end pumped 7x1 pump combiner fabricated by CO2 laser splicing system.
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Presented and characterized are an optimized cladding mode stripper design that increases the cladding light loss with a minimal device length and manufacturing time.
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In this paper, general ball shaped end-caps are studied and illustrated. Different ball shaped end-caps were tested and measured for a variety of applications.
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By offsetting the light structure, precise localized zone heating and annealing of specific areas at a fiber’s surface can be achieved as well.
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The new method for alignment of asymmetric polarization-maintaining (PM) fibers improves alignment accuracy for PM fibers with asymmetric stress applying parts.
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Fujikura Automated Fiber Cleavers including the CT-104, CT-105 and CT-106. Visit our website to learn more: http://bit.ly/Cleavers
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This video outlines a number of photonic components and assemblies that can be fabricated including lenses, multi-core fan-outs, tapered devices and over-cladding.
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The APM-101 and APM-102 perform fiber optic stripping, cleaning, and cleaving operations in a single ~18 second process. Learn more on our website: http://bit.ly/APM101
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The recently released Fujikura PCS-100 is a novel stripping tool for removing polyimide coating from optical fibers.
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A new method for alignment of polarization-maintaining (PM) fibers has been developed that solves alignment problems with low-contrast PM fibers.
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A novel feedback control method has been developed for an automated splicer using a CO2 laser as the heating element.
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A novel arc calibration method has been developed for fusion splicing optical fibers with a large variety of glass diameters.
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