Poling and characterization of photonic waveguide devices for efficient second-harmonic generation

Matthias L. Jaeger; George I. Stegeman; Siegfried Bauer; Simona Bauer-Gogonea; Walter Brinker; S. Yilmaz; Werner Wirges

doi:10.1117/12.279827

29 July 1997 Poling and characterization of photonic waveguide devices for efficient second-harmonic generation

Matthias L. Jaeger, George I. Stegeman, Siegfried Bauer, Simona Bauer-Gogonea, Walter Brinker, S. Yilmaz, Werner Wirges

Author Affiliations +

Proceedings Volume 10290, Sol-Gel and Polymer Photonic Devices: A Critical Review; 102900K (1997) https://doi.org/10.1117/12.279827
Event: Optical Science, Engineering and Instrumentation '97, 1997, San Diego, CA, United States

Abstract

Poled polymers are an exciting class of materials for second-order and third-order-like (cascading) nonlinear optical applications at the telecom wavelengths around 1.3 and 1.55μm, as material parameters can be tailored for each specific application. In this survey, the most recent developments in the field of second-order nonlinear optical polymers for frequency conversion and cascading are briefly reviewed. The material parameters required for efficient frequency conversion are critically discussed together with the waveguide preparation, electrical poling and in-situ characterization of the achieved nonlinearity for various phase-matched device schemes. The state of the art in achieved second-harmonic generation conversion efficiencies is documented and predictions on the possible further development of the field are made.

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Matthias L. Jaeger, George I. Stegeman, Siegfried Bauer, Simona Bauer-Gogonea, Walter Brinker, S. Yilmaz, and Werner Wirges "Poling and characterization of photonic waveguide devices for efficient second-harmonic generation", Proc. SPIE 10290, Sol-Gel and Polymer Photonic Devices: A Critical Review, 102900K (29 July 1997); https://doi.org/10.1117/12.279827

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KEYWORDS

Second-harmonic generation

Waveguides

Photonic devices

Frequency conversion

Electroactive polymers

Polymers

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