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Spectroscopic characterization of semiconductor doped colour filter glasses

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Abstract

Fresh and photodarkened Schott RG645 and RG665 colour filter glasses are investigated in detail by absorption and emission spectroscopy. The CdSxSe1-x volume fraction is deduced from absorption measurements applying Maxwell Garnett theory. The cluster size is determined by Rayleigh scattering measurements. Groundstate and excited-state absorption cross-sections as well as the number density of interacting states are determined from nonlinear transmission measurements using a femtosecond dye laser. The temporal absorption recovery is studied. The fluorescence quantum distributions, quantum yields, and degrees of polarization are determined. A relaxation scheme in an energy band diagram is presented and dynamic parameters are deduced.

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  1. Naturwissenschaftliche Fakultät II-Physik, Universität Regensburg, D-93040, Regensburg, Germany

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Wittmann, M., Penzkofer, A. Spectroscopic characterization of semiconductor doped colour filter glasses. Opt Quant Electron 27, 705–724 (1995). https://doi.org/10.1007/BF00576722

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