Title :
Stress measurements of fibers and preforms
Author :
Ledoux, P. ; Auge, J. ; Boniort, L.Y. ; Dupont, P. ; Goudeau, J. ; Saugrain, J.M. ; Rousseau, J.C. ; Mohanna, Y.
Author_Institution :
Lab. de Marcoussis, France
fDate :
8/1/1989 12:00:00 AM
Abstract :
The authors point out the formation mechanism of axial stress, describes the method and the apparatus used for measurements, and presents the results obtained during a study of loss reduction on trapezoidal core 1.55-μm dispersion-shifted fibers manufactured by the MCVD technique. It is concluded that the stress measurements on fiber are less accurate than those on preform (experimental dispersion reaches 15% instead of 5%). The various observations made from measurements on preform show that the axial stress is related to the index profile and that the core axial stress increases with the GeO2 content. The measurements performed on fiber show that the level of stress is linearly dependent on the drawing tension and that the stress profile is related to the glass-transition temperature of the different materials. Furthermore, this method of stress measurement is complementary to the more standard index profile measurement on fiber or on preform
Keywords :
chemical vapour deposition; drawing (mechanical); germanate glasses; glass transition (glasses); optical fibres; optical workshop techniques; stress measurement; 1.55 micron; MCVD technique; SiO2-GeO2; axial stress formation mechanism; core axial stress; dispersion-shifted fibers; drawing tension; fibers; glass-transition temperature; index profile; preforms; stress measurements; trapezoidal core loss reduction; Compressive stress; Glass; Internal stresses; Optical fiber dispersion; Optical fibers; Preforms; Silicon compounds; Stress measurement; Temperature; Thermal stresses;
Journal_Title :
Lightwave Technology, Journal of
