Title :
Elimination of the primary sources of measurement variability in single-mode fiber transmitted cutoff wavelength
Author_Institution :
Corning Glass Works, NY, USA
fDate :
10/1/1989 12:00:00 AM
Abstract :
It is shown that elimination of the two primary areas of cutoff measurement variability, sample deployment and transition structure, can dramatically improve the transmitted cutoff wavelength measurement repeatability. Careful control of the sample length and bend, both within the loop as well as outside the loop, are critical to obtaining reproducible results. Preventing the formation of transition structure can significantly improve the precision of the measurement, although the introduction of index matching or controlled microbending may be difficult to implement effectively on a routine basis
Keywords :
bending; light transmission; optical fibres; optical variables measurement; refractive index; controlled microbending; cutoff measurement variability; fibre optic loops; fibre optics bends; index matching; measurement precision; refractive index; reproducible results; sample deployment; single-mode fiber; transition structure; transmitted cutoff wavelength measurement repeatability; Feedback; Manufacturing; Measurement standards; Measurement techniques; Operating systems; Optical fiber testing; Performance evaluation; Power measurement; Shape measurement; Wavelength measurement;
Journal_Title :
Lightwave Technology, Journal of
