Title :
Characterization of the lightguiding structure of optical fibers by atomic force microscopy
Author :
Zhong, Qian ; Inniss, Daryl
Author_Institution :
AT&T Bell Labs., Murray Hill, NJ, USA
fDate :
9/1/1994 12:00:00 AM
Abstract :
For the first time, atomic force microscopy (AFM) is applied to study the lightguiding structure of optical fibers: the local surface topography of an etched fiber endface is profiled with AFM. The etching rate has been studied as a fingerprint to determine the effect of dopant chemistry and preform fabrication conditions on the fiber structure. Structural and geometrical distortions of the lightguiding structure can be directly measured with high spatial resolution. Furthermore, by quantifying the etched depth in relation to the refractive-index change, a spatial mapping of the refractive-index change can be inferred from the AFM profile. These examples demonstrate the effective use of AFM to elucidate, on a nanometric scale, features of the lightguiding structure that contribute to the performance of light transmission
Keywords :
atomic force microscopy; etching; optical fibre testing; optical fibres; optical resolving power; refractive index; surface topography measurement; AFM profile; atomic force microscopy; dopant chemistry; etched depth; etched fiber endface; etching rate; fabrication conditions; fiber structure; fingerprint; geometrical distortions; high spatial resolution; light transmission; lightguiding structure; local surface topography; nanometric scale; optical fibers; profiled; refractive-index change; spatial mapping; structural distortions; Atom optics; Atomic force microscopy; Chemistry; Etching; Fingerprint recognition; Optical fibers; Optical microscopy; Optical refraction; Preforms; Surface topography;
Journal_Title :
Lightwave Technology, Journal of
