Abstract
Numerical analysis of the vector modes of a fiber-optic polarizer is performed by the finite-element method. The calculation results are compared with the data obtained using a planar model.
Similar content being viewed by others
REFERENCES
D. G. Gruchman, K. Petermann, L. Staudigel, and E. Weidel, in: Proc. 9th Europ. Conf. Opt. Commun. ECOC-83, North Holland (1983), p. 305.
R. A. Bergh, H. C. Lefevre, and H. J. Shaw, Opt. Lett., 5, 479 (1980).
W. Johnstone, G. Stewart, B. Culshaw, and H. Hart, Electron. Lett., 24, No. 14, 866 (1988).
M. N. Zervas and I. P. Giles, Electron. Lett., 25, No. 5, p. 321 (1989).
V. M. Gelikonov, et al., Kvant. Élektron., 17, No. 1, 87 (1990).
T. Hosaka, K. Okamoto, and J. Noda, IEEE J. Quantum Electron., QE-18, 1569 (1982).
V. N. Gelikonov, et al., Opt. Spektrosk., 71, No. 4, 688 (1991).
A. I. Kleev, A. B. Manenkov, and A. G. Rozhnev, Radiotekh. Élektron., 38, 1938 (1993).
L. Valor and J. Zapata, IEEE Trans. MTT, 43, No. 10, 2452 (1995).
J. F. Lee, D. K. Sun, and Z. J. Cendes, IEEE Trans. MTT, 39, No. 8, 1262 (1991).
M. Koshiba, S. Maruyama, amd K. Hirayama, J. Lightwave Techn., 12, No. 3, 495 (1994).
D. C. Sorensen, SIAM J. Matrix Anal. Appl., 13, No. 1, 357 (1992).
M. Adams, Introduction to the Theory of Optical Waveguides [Russian translation], Mir, Moscow (1984).
L. A. Vainshtein, Electromagnetic Waves [in Russian], Radio i Svyaz', Moscow (1988).
L. A. Vainshtein and A. B. Manenkov, Lectures in Microwave Electronics and Radiophysics, Course 1 [in Russian], Saratov State University Press, Saratov (1986), p. 141.
A. G. Rozhnev and A. B. Manenkov, Radiotekh. Élektron., 42, No. 7, 785 (1997).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Brovko, A.V., Rozhnev, A.G. & Manenkov, A.B. Finite-Element Model of a Fiber-Optic Polarizer. Radiophysics and Quantum Electronics 44, 567–574 (2001). https://doi.org/10.1023/A:1017918102454
Issue Date:
DOI: https://doi.org/10.1023/A:1017918102454