1. Compositional screening of Ce-doped (Gd,Lu,Y)3(Al,Ga)5O12 ceramics prepared by quenching from melt and their luminescence properties.
- Author
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Bárta, J., Pestovich, K.S., Valdez, J.A., Wiggins, B.W., Richards, C., Smith, E., Clayton, J.H., Smalley, D., and McClellan, K.J.
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SCINTILLATORS , *YTTRIUM aluminum garnet , *LUMINESCENCE , *LIGHT absorption , *RADIOLUMINESCENCE , *ALLOY powders , *RARE earth metals - Abstract
• Machine learning models for scintillator performance require self-consistent data. • High-throughput screening needs a universal preparation technique. • Multi-component aluminate garnets were synthesized by quenching of the melt. • Structural and luminescence properties of powder samples were evaluated. • A simplified model was developed for interpretation of radioluminescence intensity. Quenching from the melt using an Optical Floating Zone furnace was investigated as a possible high-throughput preparation method in order to screen novel scintillating materials. To validate this method, polycrystalline rare-earth aluminum garnets and yttrium gallium aluminum garnets were synthesized and characterized by X-ray diffraction, photoluminescence and radioluminescence emission spectra as well as radioluminescence imaging and compared to the previously reported properties of those materials. In order to achieve rapid, but quantitative comparison of the materials, pellets fabricated from the synthesized powders were sintered; two different sintering conditions were investigated and compared. A simplistic energy deposition and light absorption model for brightness of opaque samples under X-ray irradiation was developed to estimate the relative scintillation efficiency of the materials. Based on the results, Y 3 Al 5 O 12 , LuY 2 Al 5 O 12 and GdY 2 Al 5 O 12 seem to have the highest scintillation efficiency among the prepared samples. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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