Length dependence of the effective cutoff wavelength in single-mode fibers

Abstract

The effective cutoff wavelength of a depressed cladding single-mode fiber in either a cabled or a loose state depends upon the length of the fiber. This dependence can be accurately represented by a linear function of the logarithm of the fiber length for lengths between 1 m and 1 km. Cutoff will shift 55-66 nm per decade length for slightly and moderately depressed cladding designs, respectively. Neglecting all sources of differential mode attenuation except leaky-mode loss, the computed behavior of cutoff as a function of fiber length agrees reasonably well with the observed behavior for a moderately depressed cladding design. On the other hand, agreement is poor for a slightly depressed cladding design. A knowledge of the length dependence of cutoff is essential for establishing a production requirement for cutoff based upon the needs of the system.

Keywords

This publication has 9 references indexed in Scilit:

Reproducible modal noise measurements in system design and analysis
Journal of Lightwave Technology, 1983
Calculation of Modes in an Optical Fiber Using the Finite Element Method and EISPACK
Bell System Technical Journal, 1983
Developments in Single-Mode Fiber Design, Materials, and Performance at Bell Laboratories
IEEE Transactions on Microwave Theory and Techniques, 1982
Effective cutoff wavelength of the LP11mode in single-mode fiber cables
IEEE Journal of Quantum Electronics, 1981
Direct method of determining equivalent-step-index profiles for monomode fibres
Electronics Letters, 1981
Modal noise in single-mode fibres operated slightly above cutoff
Electronics Letters, 1981
Cut-off wavelength measurements for single-mode optical fibers
Applied Optics, 1979
Novel method for measuring cutoff wavelength of HE21-, TE01-and TM01-modes
Electronics Letters, 1979
New method for measuring V-value of a single-mode optical fibre
Electronics Letters, 1976

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