Second-Harmonic Generation in Planar Waveguides of Doped Silica

Second-harmonic generation was produced in germanium-doped silica planar waveguides prepared by simultaneous illumination with 1064- and 532-nm laser light. During preparation using prism coupling to specific waveguiding modes, the film-generated second-harmonic intensity grew as a function of prepa...

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Hauptverfasser:	Kester, John J, Wolf, Paul J, White, W R
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Sprache:	eng
Schlagworte:	BEAM SPLITTING DOPING FIBER OPTICS Fiber Optics and Integrated Optics FIBERS GERMANIUM HARMONICS ILLUMINATION INTENSITY LASERS LENGTH LIGHT LIGHT SCATTERING OPTICAL FILTERS OPTICAL LENSES POLARIZATION Q SWITCHING REPRINTS SATURATION SECOND HARMONIC GENERATION Solid State Physics THIN FILMS WAVEGUIDES YAG LASERS
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creator	Kester, John J Wolf, Paul J White, W R
description	Second-harmonic generation was produced in germanium-doped silica planar waveguides prepared by simultaneous illumination with 1064- and 532-nm laser light. During preparation using prism coupling to specific waveguiding modes, the film-generated second-harmonic intensity grew as a function of preparation time until it saturated. The growth rate and saturation level for p- polarized second-harmonic intensity was an order of magnitude greater than that observed for the s polarization. The efficiency for a 2-cm waveguide length was at least 0.5%. The comparison of experimental results indicates a mechanism for this planar geometry that is similar to that producing harmonic effects in optical fibers. Pub. in Optics Letters, v 17 n24 p1779-1781, 15 Dec 1992.
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During preparation using prism coupling to specific waveguiding modes, the film-generated second-harmonic intensity grew as a function of preparation time until it saturated. The growth rate and saturation level for p- polarized second-harmonic intensity was an order of magnitude greater than that observed for the s polarization. The efficiency for a 2-cm waveguide length was at least 0.5%. The comparison of experimental results indicates a mechanism for this planar geometry that is similar to that producing harmonic effects in optical fibers. 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subjects	BEAM SPLITTING DOPING FIBER OPTICS Fiber Optics and Integrated Optics FIBERS GERMANIUM HARMONICS ILLUMINATION INTENSITY LASERS LENGTH LIGHT LIGHT SCATTERING OPTICAL FILTERS OPTICAL LENSES POLARIZATION Q SWITCHING REPRINTS SATURATION SECOND HARMONIC GENERATION Solid State Physics THIN FILMS WAVEGUIDES YAG LASERS
title	Second-Harmonic Generation in Planar Waveguides of Doped Silica
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