1. Correlation between Dispersivity of Charge Transport and Holographic Response Time in an Organic Photorefractive Glass
- Author
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M. Grasruck, Peter Strohriegl, Uwe Hofmann, Christoph Hohle, Stefan Schloter, Andreas Schreiber, Stephan J. Zilker, Andre Leopold, and and D. Haarer
- Subjects
Materials science ,Molar mass ,business.industry ,High-refractive-index polymer ,Photoconductivity ,Holography ,Photorefractive effect ,Grating ,Photoelectric effect ,Surfaces, Coatings and Films ,law.invention ,Optics ,law ,Materials Chemistry ,Optoelectronics ,Physical and Theoretical Chemistry ,business ,Beam (structure) - Abstract
We report on photoelectric and holographic investigations of an organic photorefractive material based on a low molar mass glass with both photoconductive and nonlinear optical properties. By implementing a suitable plasticizer we obtained a composite system which shows extremely fast initial response times down to 450 μs at writing beam intensities of Iwrite = 10.8 W/cm2 and 2.5 ms at the canonical intensity of Iwrite = 1 W/cm2. Furthermore, high refractive index modulations up to Δn = 6.1 × 10-3, long lifetimes and high optical quality of the samples are observed. In comparison to a second similar composite system, which was plasticized by a more polar dopand, we demonstrate the crucial role of this functional constituent on the photoelectric properties. Time-of-flight measurements show a major impact of the plasticizer on the dispersivity of charge-carrier transport. Subsequently the buildup and decay dynamics of the photorefractive grating are substantially affected. Holographic time-of-flight measure...
- Published
- 2000
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