Abstract

The use of photoelastic tomography to obtain the two-dimensional axial stress profile of a polarization-maintaining (PM) fiber with high resolution and accuracy is described. We illustrate, for what is believed to be the first time, the two-dimensional distribution of the local principal axes of the fiber’s cross section, which is directly related to the fiber’s PM ability. We demonstrate that the stress-induced anisotropy as well as all the stress tensor components of the fiber can be fully determined.

© 2002 Optical Society of America

Determination of stress-induced intrinsic birefringence in a single-mode fiber by measurement of the two-dimensional stress profile

Yongwoo Park, Un-Chul Paek, and Dug Young Kim
Opt. Lett. 27(15) 1291-1293 (2002)

Effect of asymmetric stress relaxation on the polarization-dependent transmission characteristics of a CO₂ laser-written long-period fiber grating

Hyung Suk Ryu, Yongwoo Park, Seong Tae Oh, Youngjoo Chung, and Dug Young Kim
Opt. Lett. 28(3) 155-157 (2003)

Determination of bending-induced strain in optical fibers by use of quantitative phase imaging

A. Roberts, K. Thorn, M. L. Michna, N. Dragomir, P. Farrell, and G. Baxter
Opt. Lett. 27(2) 86-88 (2002)

Observation and analysis of residual stress development resulting from OH impurity in optical fibers

B. H. Kim, Y. Park, D. Y. Kim, U. C. Paek, and W.-T. Han
Opt. Lett. 27(10) 806-808 (2002)

Photoelastic computer tomography: a novel measurement method for axial residual stress profile in optical fibers

Tetsuji Abe, Yutaka Mitsunaga, and Hiroaki Koga
J. Opt. Soc. Am. A 3(1) 133-138 (1986)