Temperature dependence of second-order nonlinear relaxation of a poled chromophore doped sol-gel material - Institut d'Optique Graduate School
Journal Articles Journal of Applied Physics Year : 2001

Temperature dependence of second-order nonlinear relaxation of a poled chromophore doped sol-gel material

Abstract

Second-order optical nonlinearity relaxations of hybrid inorganic/organic sol-gel films doped with poled Disperse Red 1 chromophores were measured by second harmonic generation at several temperatures. The decay curves were fitted to biexponentials and Ko¨hlrausch, Williams, and Watts ~KWW! stretched exponentials. It can be concluded that the KWW model well describes chromophore thermal reorientation in hybrid sol-gel materials, as is known for all-organic polymers. Using the Arrhenius law, the activation energy of the reorientation process has been determined to be about 50 or 70 kcal mol21. A stability of roughly a decade has been extrapolated at room temperature. Another experiment at room temperature gave an estimation of the stability that was found to be in qualitative agreement. It is shown that poled chromophore-doped sol-gel materials have the potential to be stable enough for applications in telecommunication devices
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Dates and versions

hal-00664958 , version 1 (31-01-2012)

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Hélène Goudket, Michael Canva, Yves Levy, Frédéric Chaput, Jean-Pierre Boilot. Temperature dependence of second-order nonlinear relaxation of a poled chromophore doped sol-gel material. Journal of Applied Physics, 2001, 90 (12), pp.6044-6047. ⟨10.1063/1.1416865⟩. ⟨hal-00664958⟩
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