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JOURNAL ARTICLE

Precise laser-based measurements of zero-dispersion wavelength in single-mode fibers

I.B. SchlagerS. E. MechelsDouglas L. Franzen

Year: 2005 Pages: 293-294
DOI: 10.1109/ofc.1996.908305
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Abstract

We have developed two laser-based systems to measure the zero-dispersion wavelength (/spl lambda//sub 0/) of long optical fibers. Both systems are based on tunable narrow-line laser sources with output wavelengths that can be accurately measured with an interferometric wavemeter. The first system uses the phase-shift method to measure group delay in the fiber sample as a function of wavelength. The second system directly measures the wavelength-averaged differential group delay or fiber chromatic dispersion by dithering the laser wavelength in a new implementation of the differential phase-shift technique. Both systems give /spl lambda//sub 0/ with a precision (repeatability) of 0.02 nm or less at the 99% confidence level.

Keywords:
Optics Wavelength Dispersion (optics) Zero-dispersion wavelength Laser Interferometry Materials science Dither Dispersion-shifted fiber Differential phase Fiber laser Repeatability Lambda Group delay and phase delay Optical fiber Physics Phase (matter) Fiber optic sensor Telecommunications Computer science Mathematics

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0.32
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3
Refs
0.61
Citation Normalized Percentile
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Topics

Advanced Fiber Optic Sensors
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advanced Fiber Laser Technologies
Physical Sciences →  Physics and Astronomy →  Atomic and Molecular Physics, and Optics
Optical Coherence Tomography Applications
Physical Sciences →  Engineering →  Biomedical Engineering

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