We bring into consideration a novel, potentially promising scintillating material, Pb-doped SrHfO3. The structural and optical properties of a series of Pb-doped SrHfO3 powders prepared by acetate and citrate combustion are investigated and compared to those of undoped and Ce-doped powders with the same composition. Room temperature radioluminescence studies as a function of sintering temperature show that samples sintered up to the highest final temperature (1150 degrees C) display the highest light output. Moreover, Pb-doped SrHfO shows a higher radioluminescence efficiency with respect to Ce-doped SrHfO3, which in turn features a very fast photoluminescence decay time of 15 ns. The presence of point defects and their role in carrier trapping are studied by thermally stimulated luminescence as well as by radioluminescence as a function of temperature.
Mihokova, E., Moretti, F., Chiodini, N., Lauria, A., Fasoli, M., Vedda, A., et al. (2010). Optical and structural properties of Pb and Ce doped SrHfO3 powders. IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 57(3), 1245-1250 [10.1109/TNS.2010.2044047].
Optical and structural properties of Pb and Ce doped SrHfO3 powders
MORETTI, FEDERICO;CHIODINI, NORBERTO;LAURIA, ALESSANDRO;FASOLI, MAURO;VEDDA, ANNA GRAZIELLA;NALE, ANGELOCLAUDIO;
2010
Abstract
We bring into consideration a novel, potentially promising scintillating material, Pb-doped SrHfO3. The structural and optical properties of a series of Pb-doped SrHfO3 powders prepared by acetate and citrate combustion are investigated and compared to those of undoped and Ce-doped powders with the same composition. Room temperature radioluminescence studies as a function of sintering temperature show that samples sintered up to the highest final temperature (1150 degrees C) display the highest light output. Moreover, Pb-doped SrHfO shows a higher radioluminescence efficiency with respect to Ce-doped SrHfO3, which in turn features a very fast photoluminescence decay time of 15 ns. The presence of point defects and their role in carrier trapping are studied by thermally stimulated luminescence as well as by radioluminescence as a function of temperature.
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