Nonlinear Guided Wave Structures Using Semiconductor Doped Glasses

Hubert Jerominek; Sergiusz Patela; Claude Delisle; Real Tremblay

doi:10.1117/12.938856

14 October 1986 Nonlinear Guided Wave Structures Using Semiconductor Doped Glasses

Hubert Jerominek, Sergiusz Patela, Claude Delisle, Real Tremblay

Proceedings Volume 0667, Optical Chaos; (1986) https://doi.org/10.1117/12.938856
Event: 1986 Quebec Symposium, 1986, Quebec City, Canada

Abstract

The fabrication procedure and properties of optical nonlinear guided-wave structures are reported. The structures consist of a thin film of Corning 7059 glass deposited by RF planar magnetron sputtering on a surface of CdSxSe1-x doped glass. The coupling of light into the waveguides characterized by a power dependent propagation constant was studied. The experiments were performed at two wavelengths λ= 0.4880 μm and λ= 0.5145 μm with a laser working in cw and mode-locked regimes of operation. It is shown that integrated optical structures fabricated exhibit strong nonlinear effect with subnanosecond response time.

Citation Download Citation

Hubert Jerominek, Sergiusz Patela, Claude Delisle, and Real Tremblay "Nonlinear Guided Wave Structures Using Semiconductor Doped Glasses", Proc. SPIE 0667, Optical Chaos, (14 October 1986); https://doi.org/10.1117/12.938856

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