Product > Specialty Fusion Splicing

New Approach for High Reliability, Low Loss Splicing between Silica and ZBLAN Fibers

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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High Efficiency Pump Combiner

In this paper we present an all fiber end pumped 7x1 pump combiner fabricated by CO2 laser splicing system.
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Fiber Cladding Mode Stripper

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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Ball Shaped End Caps

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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Annular Heating of Optical Fiber with a CO2 Laser Using Reflective Axicon Elements

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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Fourier Analysis Method for Asymmetric Polarization-Maintaining Fiber Alignment

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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2:15
CT-104, CT-105 and CT-106 Automated Fiber Cleavers

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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1:03:31
Fiber Optic Glass Processing for Photonic Component Fabrication

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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1:43
Fujikura APM101/102 Automatic Fiber Optic Preparation Machines

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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Stripping Optical Fibers Utilizing the Fujikura Polyimide Coating Stripper (PCS-100)

The recently released Fujikura PCS-100 is a novel stripping tool for removing polyimide coating from optical fibers.
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Interrelation Profile Analysis Method for Alignment of Polarization-Maintaining Fiber

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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Read Flipbook
Heating Power Feedback Control for CO2 Laser Fusion Splicers

A novel feedback control method has been developed for an automated splicer using a CO2 laser as the heating element.
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Arc Power Calibration for Fusion Splicing Optical Fibers with Variety Diameters

A novel arc calibration method has been developed for fusion splicing optical fibers with a large variety of glass diameters.
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Automated Alignment and Splicing for Multi-Core Fibers

A novel method for aligning multi-core fibers (MCF) provides a systematic approach for MCF splicing in the lab, in cable factories, and in the field.
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Optic Lenses Manufactured on Fiber Ends

By using CO2 laser fusion technology, many components with extreme geometries and critical requirements, which were very hard to make in the past, can now be easily manufactured.
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Product > Specialty Fusion Splicing

New Approach for High Reliability, Low Loss Splicing between Silica and ZBLAN Fibers

This paper presents results obtained by using the high thermal expansion coefficient of the ZBLAN fiber to encapsulate a smaller SiO2 fiber.

High Efficiency Pump Combiner

In this paper we present an all fiber end pumped 7x1 pump combiner fabricated by CO2 laser splicing system.

Fiber Cladding Mode Stripper

Presented and characterized are an optimized cladding mode stripper design that increases the cladding light loss with a minimal device length and manufacturing time.

Ball Shaped End Caps

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.

Annular Heating of Optical Fiber with a CO2 Laser Using Reflective Axicon Elements

By offsetting the light structure, precise localized zone heating and annealing of specific areas at a fiber’s surface can be achieved as well.

Fourier Analysis Method for Asymmetric Polarization-Maintaining Fiber Alignment

The new method for alignment of asymmetric polarization-maintaining (PM) fibers improves alignment accuracy for PM fibers with asymmetric stress applying parts.

CT-104, CT-105 and CT-106 Automated Fiber Cleavers

Fujikura Automated Fiber Cleavers including the CT-104, CT-105 and CT-106. Visit our website to learn more: http://bit.ly/Cleavers

Fiber Optic Glass Processing for Photonic Component Fabrication

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.

Fujikura APM101/102 Automatic Fiber Optic Preparation Machines

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

Stripping Optical Fibers Utilizing the Fujikura Polyimide Coating Stripper (PCS-100)

The recently released Fujikura PCS-100 is a novel stripping tool for removing polyimide coating from optical fibers.

Interrelation Profile Analysis Method for Alignment of Polarization-Maintaining Fiber

A new method for alignment of polarization-maintaining (PM) fibers has been developed that solves alignment problems with low-contrast PM fibers.

Heating Power Feedback Control for CO2 Laser Fusion Splicers

A novel feedback control method has been developed for an automated splicer using a CO2 laser as the heating element.

Arc Power Calibration for Fusion Splicing Optical Fibers with Variety Diameters

A novel arc calibration method has been developed for fusion splicing optical fibers with a large variety of glass diameters.

Automated Alignment and Splicing for Multi-Core Fibers

A novel method for aligning multi-core fibers (MCF) provides a systematic approach for MCF splicing in the lab, in cable factories, and in the field.

Optic Lenses Manufactured on Fiber Ends

By using CO2 laser fusion technology, many components with extreme geometries and critical requirements, which were very hard to make in the past, can now be easily manufactured.