Abstract
Fluorescence kinetics and positrons annihilation kinetics investigations on CdS crystals, either very pure or with increasing contents of Ag-ions, led to similar and complementary results. Ag-ions mainly fill the cadmium vacancies of the lattice, building red emission luminogene centres, while green 'edge-emission' ones are destroyed. These latter, which involve an excited level active for high energy series fluorescence, seems actually related to cadmium vacancies.
Citation Formats
Grillot, E, Bancie-Grillot, M, and Egee, M.
Fluorescence kinetics and positron annihilation kinetics investigations in cadmium sulfide crystals.
Netherlands: N. p.,
1976.
Web.
Grillot, E, Bancie-Grillot, M, & Egee, M.
Fluorescence kinetics and positron annihilation kinetics investigations in cadmium sulfide crystals.
Netherlands.
Grillot, E, Bancie-Grillot, M, and Egee, M.
1976.
"Fluorescence kinetics and positron annihilation kinetics investigations in cadmium sulfide crystals."
Netherlands.
@misc{etde_7144744,
title = {Fluorescence kinetics and positron annihilation kinetics investigations in cadmium sulfide crystals}
author = {Grillot, E, Bancie-Grillot, M, and Egee, M}
abstractNote = {Fluorescence kinetics and positrons annihilation kinetics investigations on CdS crystals, either very pure or with increasing contents of Ag-ions, led to similar and complementary results. Ag-ions mainly fill the cadmium vacancies of the lattice, building red emission luminogene centres, while green 'edge-emission' ones are destroyed. These latter, which involve an excited level active for high energy series fluorescence, seems actually related to cadmium vacancies.}
journal = []
volume = {12-13}
place = {Netherlands}
year = {1976}
month = {Mar}
}
title = {Fluorescence kinetics and positron annihilation kinetics investigations in cadmium sulfide crystals}
author = {Grillot, E, Bancie-Grillot, M, and Egee, M}
abstractNote = {Fluorescence kinetics and positrons annihilation kinetics investigations on CdS crystals, either very pure or with increasing contents of Ag-ions, led to similar and complementary results. Ag-ions mainly fill the cadmium vacancies of the lattice, building red emission luminogene centres, while green 'edge-emission' ones are destroyed. These latter, which involve an excited level active for high energy series fluorescence, seems actually related to cadmium vacancies.}
journal = []
volume = {12-13}
place = {Netherlands}
year = {1976}
month = {Mar}
}