Technical References

Compatibility:

[1] M. J. Adams, “An introduction to Optical Waveguides,” John Wiley & Sons, 1981.

[2] M. Artiglia, “Mode field Diameter measurements in single-mode optical fibers,” J. Lightwave Tech. Vol. 7, no. 8, pp. 11391152, 1989.

[3] F. Bruyère, “Effets de Polarisation dans les Systèmes à Amplification Optique de Longue Distance”, Ph.D dissertation, Univ. of Paris XI Orsay, 1994.

[4] J. A. Buck, “Fundamentals of Optical fibers,” John Wiley & Sons, 1995.

[5] Curti, B. Daino, G. De Marchis, and F. Matera, “Statistical Treatment of the evolution of the principal states of polarization in single-mode fibers”, IEEE Journal of Lightwave Technology, vol. 8, no. 8, p 1162, 1990.

[6] G. J. Foschini and C. D. Poole, “Statistical Theory of Polarization Dispersion in Single- Mode Fibers”, Journal of Lightwave Technology, vol. LT-9, no. 11, pp 1439-1456, November 1991.

[7] D. Marcuse, “Principle of optical fiber measurements,” Academic Press, 1981.

[8] D. Marcuse, “Theory of Dielectrical Optical Waveguides, Second Ed.,” Academic Press,

[9] 1991.

[10] S. E. Miller and I. P. Kaminow, Eds., “Optical Fiber Telecommunications II,” Academic Press, 1988.

[11] S. Nemoto and T. Makimoto, “Analysis of splice loss in single-mode fibers using Gaussian field approximation,” Opt. And Quan. Elect. 11, 447(1997).

[12] K. Petermann, “Microbending loss in monomode fibers,” Electron. Lett., vol. 20, no. 3, pp. 107-109, 1976.

[13] C. D. Poole, and R. E. Wagner, “Phenomenological Approach to Polarization Dispersion in Long Single-Mode Fibres”, Electronic Letters, vol. 22, pp 1029-1030, 1986.

[14] C. D. Poole, N. S. Bergano, R. E. Wagner, and H. J. Schulte, “Polarization Dispersion and Principal States in a 147-km Undersea Lightwave Cable”, Journal of Lightwave Technology, vol. LT-6, no. 7, pp 1185-1190, July 1988.

[15] C. D. Poole, “Statistical Treatment of Polarization Dispersion in Single-Mode Fiber”, Optics Letters, vol. 13, no. 8, pp 687-689, August 1988.

[16] C. D. Poole, J. H. Winters, and J. A. Nagel, “Dynamical Equation for Polarization Dispersion”, Optics Letters, vol. 16, no. 6, pp 372-374, March 15, 1991.

[17] J. Sakai and T. Kimura, “Birefringence and Polarization Characteristics of Single-Mode Optical Fibers under Elastic Deformations”, IEEE Journal of Quantum Electronics, vol. QE-17, no. 6, pp 1041-1051, June 1981.

[18] J. Sakai, and T. Kimura, “Birefringence Caused by Thermal Stress in Elliptically Deformed Core Optical Fibers”, IEEE Journal of Quantum Electronics, vol. QE-18, no. 11, pp 1899-1909, November 1982.

[19] G. Sewell, “The numerical solutions of ordinary and partial differential equations,” Academic Press, Boston, 1991, Chapter 4.10, p. 176.

[20] A. W. Snyder and J. D. Love, “Optical Waveguide Theory,” Chapman and Hall, 1983.

[21] Ch. Tsao, “Optical fiber waveguide analysis,” Oxford University Press, 1992.

[22] Ch. Yeh, “Handbook of Fiber Optics-Theory and Applications,” Academic Press, 1990.

[23] ITU-T Rec. G.650 “Definition and Test Methods for the Relevant Parameters of singlemode fibers”, Mar. 1993, also TIA/EIA-455-80A “Measuring Cutoff Wavelength of Uncabled singlemode fiberes by Transmited Power”, Feb. 1996, also Keiser, G. “Optical fiber Communications”, 3rd ed., McGrow-Hill

[24] CCIT: Rec.G.652 “Characteristics of a single-mode optical fiber cable” and Rec. G.653
“Characteristics of a single-mode optical fiber cable”

[25] G. Agrawal, “Nonlinear Fiber Optics”, 2nd edition, Academic Press, 1995

[26] J. Sakai, and T. Kimura, “Bending loss of propagation modes in arbitrary-index profile optical fibers”, Applied Optics vol. 17, no. 10, pp 1499-1506, May 1978