Enhancing the nonlinearity of an optical waveguide

Optical waveguides – Having nonlinear property

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372 6, 385 30, 385126, 385131, 385132, 385146, 385 24, G02B 626

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056424531

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BRIEF SUMMARY
BACKGROUND

The present invention is concerned with waveguides for optical and near optical wavelengths adopted to use nonlinear optical effects of particular kinds and of particular materials.
This application claims priority from Swedish Patent Application No. 9302634-2, filed Aug. 13, 1993, which is incorporated here by reference.
Optical glass fibers are a cheap wavegulde medium that can be exploited for applications in nonlinear optics. Fused quartz, however, has a small nonlinear coefficient as compared with materials such as semiconductors. This has limited considerably the use of fibers in applications such as optical switching, because the optical power of the control signal has to be high in order to cause an appreciable change in the properties of the fiber, see "All-optical Waveguide Switching", G. I. Stegeman, E. M. Wright, Optical and Quantum Electronics 22 (1990), pps. 95-122. This led to the use of discrete components based on LiNbO.sub.3, GaAs and others, see "Integrated Optics in LiNbO.sub.3 : Recent Developments in Devices for Telecommunications", L. Thylen, Journal of Lightwave Tech., 6 (1988) pps. 847-861, "Integrated Optic Devices Based on Nonlinear optical Polymers", E. V. Tomme, P. P van Daele, R. G. Basts, P. E. Lagasse, IEEE Journal of Quantum Electronics vol. 27, Mar. 1991 and "Physical Concepts of Materials for Novel Optoelectronic Device Applications II: Device Physics and Applications", Proceedings SPIE 1362 (1990), and to the search for optical fibers with higher nonlinearity, such as that achieved with semiconductor doped glasses, see "Optical Nonlinearity and Applicatlons of semiconductor-doped Glass Fiber", D. Cotter, B. J. Ainslie, M. G. Butt, S. T. Davey, R. J. Manning, Proceedings CLEO'91, CTuE7, p. 92, and "Efficient non-linear optical fibers and their application", S. Sudo, Itoh, Optical and Quantum Electronics 22 (1990) pps. 187-212, but that are difficult to fabricate. On the other hand, following the development of optical communications the need exists for a simple fiber-based light controlled coupler. With such a device it would be possible to derive an adjustable part of the signal transmitted in a fiber to one or several channels in a transmission network. A fiber based nonlinear optical coupler could also find important applications in logical gates and optical transistors, where a weak signal would control the switching of a higher power signal.
Recent technological developments led to the fabrication of glass fibers with non-cylindrical geometry, and in particular the so-called D-shaped fibers, see "Fabrication and Characterization of D-fibers with a Range of Accurately Controlled Core/Flat Distances", Electronics Letters 22, March 1986. There, light is guided as in a conventional fiber, but the electromagnetic field extends all the way to the glass-air interface. This offers a unique opportunity to make light interact through the evanescent field with any material deposited on the flat surface of the D-shaped fiber. Since this interaction takes place longitudinally along the fiber, this is a particularly favourable geometry that can be exploited in nonlinear optics.
In the patent U.S. Pat. No. 4,557,551 for Dyott a non-linear optical fiber coupler is disclosed having two polarization-maintaining optical fibers of elliptical cross-sections located in parallel at the opposite sides of a central structure. This central structure has a lens-shaped cross-section, that is formed by two oppositely placed arc sections. The central thickness of this middle structure is a few times larger than the diameters of the fibers and many times the diameters of the cores of the fibers. Also, support structures are used for maintaining the fibers in the desired configurations. The middle structure is a single crystal of an electro-optic material having a non-centro-symmetrical crystal structure. The materials mentioned are organic type materials being electric insulators. The physical effect utilized is based on the electro-optical effect, the refractive index of the material

REFERENCES:
patent: 4557551 (1985-12-01), Dyott
patent: 4815817 (1989-03-01), Levinson
patent: 4927223 (1990-05-01), Pocholle et al.
patent: 4962987 (1990-10-01), Doran
patent: 4973122 (1990-11-01), Cotter et al.
patent: 5285508 (1994-02-01), Chikuma
patent: 5448665 (1995-09-01), Kershaw et al.
patent: 5513288 (1996-04-01), Mayer
"All-Optical Waveguide Switching", G.I. Stegeman, E.M. Wright, Optical and Quantum Electronics 22 (1990), pp. 95-122.
"Integrated Optics in LiNbO.sub.3 : Recent Developments in Devices for Telecommunications", L. Thylen, Journal of Lightwave Tech., 6 (1988) pp. 847-861.
"Integrated Optic Devices Based on Nonlinear Optical Polymers", E.V. Tomme, P.P. Van Daele, R.G. Baets, P.E. Lagasse, IEEE Journal of Quantum Electronics, vol. 27, Mar. 1991.
"Optical Nonlinearity and Applications of semiconductor-doped Glass Fiber", D. Cotter, B.J. Ainslie, M.G. Burn, S.T. Davey, R.J. Manning, Proceedings CLEO'91, CTuE7, p. 92.
"Efficient non-linear optical fibers and their applications", S. Sudo, H. Itoh, Optical and Quantum Electronics 22 (1990) pp. 187-212.
"Fabrication and Characterization of D-fibers with a Range of Accurately Controlled Core/Flat Distances", Electronics Letters 22, Mar. 1986.
"Optical Waveguide Theory", A.W. Snyder, J.D. Love, Chapman and Hall, London 1983, pp. 387-399, 568-574.
"Silica Waveguides on Silicon and their Application to Integrated-Optic Components", Optical and Quantum Electronics 22 (1990), pp. 391-416.

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