Photorefractive triphenylamine-based glass: a multifunctional low molecular weight compound with fast holographic response — Christoph Hohle (1999) | RDL Network
Photorefractive triphenylamine-based glass: a multifunctional low molecular weight compound with fast holographic response
Article 1999 en
Authors
CH
Christoph Hohle
UH
Uwe Hofmann
SS
S. Schloter
Abstract
1 min read
A novel organic photorefractive composite system is presented consisting of the amorphous multifunctional low-molar mass compound DR1-DCTA, doped with C 60 as sensitizer and diisooctyl phthalate (DOP) as plasticizer. DR1-DCTA, a carbazole substituted triphenylamine with a covalently attached nonlinear optical azo chromophore unit has been synthesized in a 4 step reaction. The compound forms a stable glass. Its thermal, optical and electrochemical properties are discussed. Holographic experiments (2BC, DFWM) of the photorefractive composite exhibit a fast response time in the range of only 30 ms and a maximum gain coefficient of 90 cm –1 .
Uwe Hofmann, Michael Grasruck, A. Leopold, Andreas Schreiber, S. Schloter, Stephan J. Zilker, D. Haarer, Mukundan Mukundan Thelakkat, Christoph Hohle, Hans‐Werner Schmidt, Peter Strohriegl
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