Interferometric measurements of dispersion-spectra variations in a single-mode fiber

Abstract

Previous work has demonstrated that group-delay spectra in single-mode fibers can be measured with 0.1-ps resolution by a white-light cross-correlation technique. An application would be to pretest short fibers before drawing an entire preform. This could be particularly useful for achieving high draw yield for fibers whose dispersion spectra are sensitive to core diameter. This paper describes measurements of minimum-dispersion spectra that were obtained using 4-m lengths of fiber that were cut from each end of kilometer-long quadruple-clad, triangular-index, and step-index depressed-clad fibers. The axial uniformity of fiber dispersion was found to be very good. Results show that averaging dispersion spectra using short fiber segments from each end produces excellent agreement when compared with the dispersion spectrum determined from conventional pulse-delay measurements on a long length of fiber.

Keywords

This publication has 7 references indexed in Scilit:

Graded-index single-mode fibers with zero dispersion at 1.55 μm
Published by Optica Publishing Group ,1983
Low-loss quadruple-clad single-mode lightguides with dispersion below 2 ps/km nm over the 1.28 μm–1.65 μm wavelength range
Electronics Letters, 1982
Minimum-dispersion spectra of single-mode fibres measured with subpicosecond resolution by white-light crosscorrelation
Electronics Letters, 1982
Interferometric measurements of minimum dispersion spectra in short lengths of single-mode fibre
Electronics Letters, 1982
Developments in single-mode fiber design, materials, and performance at Bell Laboratories
IEEE Journal of Quantum Electronics, 1982
Numerical prediction of fiber transmission characteristics from arbitrary refractive-index profiles
Applied Optics, 1982
Experimental techniques for evaluation of fiber transmission loss and dispersion
Proceedings of the IEEE, 1980