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Abstract Molecular organic crystals with enhanced quadratic nonlinear optical properties are reviewed and classified according to a transparency-efficiency scale. This scale is relevant for discussing the various fields of applications of these materials and relates to well defined molecular and crystalline structural and electronic features. Within such a framework, a predictive molecular engineering approach has proved fruitful in the three main target-families identified here namely: “coloured”, “yellow” (para-nitroaniline-like) and “transparent” materials. For each of these three families, relevant chemical and physical features are discussed in relation with specific applications in the field of quadratic nonlinear optics.
Abstract Molecular organic crystals with enhanced quadratic nonlinear optical properties are reviewed and classified according to a transparency-efficiency scale. This scale is relevant for discussing the various fields of applications of these materials and relates to well defined molecular and crystalline structural and electronic features. Within such a framework, a predictive molecular engineering approach has proved fruitful in the three main target-families identified here namely: “coloured”, “yellow” (para-nitroaniline-like) and “transparent” materials. For each of these three families, relevant chemical and physical features are discussed in relation with specific applications in the field of quadratic nonlinear optics.
Organic Crystals and Quadratic Nonlinear Optics: The Transparency-Efficiency Trade-off
Zyss, J. (author)
1990-01-01
13 pages
Article/Chapter (Book)
Electronic Resource
English
Nonlinear Optical Property , Nonlinear Optical Process , Semiconductor Laser Diode , Optical Parametric Amplification , Transparency Edge Chemistry , Industrial Chemistry/Chemical Engineering , Characterization and Evaluation of Materials , Organic Chemistry , Optics, Lasers, Photonics, Optical Devices
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