LPE Growth of Composite Thermoluminescent Detectors Based on the Lu3−xGdxAl5O12:Ce Single Crystalline Films and YAG:Ce Crystals

LPE Growth of Composite Thermoluminescent Detectors Based on the Lu3−xGdxAl5O12:Ce Single Crystalline Films and YAG:Ce Crystals

This work is dedicated to the development of new types of composite thermoluminescent (TL) detectors for simultaneous registration of the different components of ionization radiation based on the single crystalline films (SCFs) of Ce3+-doped Lu3−xGdxAl5O12:Ce (x = 0–1.5) garnet and Y3Al5O12:Ce (YAG:...

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Bibliographic Details
Published in:Crystals (Basel) Vol. 10; no. 3; p. 189
Main Authors: Witkiewicz-Lukaszek, Sandra, Mrozik, Anna, Gorbenko, Vitalii, Zorenko, Tetiana, Bilski, Pawel, Fedorov, A., Zorenko, Yuriy
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-03-2020
Subjects:
Cerium
Crystal structure
Crystallinity
Detectors
Epitaxial growth
Excitation
Fluxes
Glow curves
Ionization
Liquid phase epitaxy
Liquid phases
mixed garnets
Optical properties
Prototypes
Registration
Sensors
single crystalline films
Strontium 90
Substrates
thermoluminescence
tl detector cations
Yttrium-aluminum garnet
Japan
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Summary:This work is dedicated to the development of new types of composite thermoluminescent (TL) detectors for simultaneous registration of the different components of ionization radiation based on the single crystalline films (SCFs) of Ce3+-doped Lu3−xGdxAl5O12:Ce (x = 0–1.5) garnet and Y3Al5O12:Ce (YAG:Ce) substrates using the liquid phase epitaxy (LPE) growth method. For this purpose, the TL properties of the mentioned epitaxial structures were examined in Risø TL/OSL-DA-20 reader under excitation by α- and β-particles from 242Am and 90Sr-90Y sources. We have shown that the cation engineering of SCF content can result in more significant separation of the TL glow curves of SCFs and substrates under α- and β-particle excitations in comparison with the prototype of such composite detectors based on the Lu3Al5O12:Ce (LuAG:Ce)/YAG:Ce epitaxial structure. Specifically, the difference between the TL glow curves of Lu1.5Gd1.5Al5O12:Ce SCFs and YAG:Ce substrates increases up to 120 K in comparison with a respective value of 80 degrees in the prototype based on the LuAG:Ce/YAG:Ce epitaxial structure. Therefore, the LPE-grown epitaxial structures containing Lu1.5Gd1.5Al5O12:Ce SCFs and Ce3+-doped YAG:Ce substrate can be successfully applied for simultaneous registration of α- and β-particles in mixed fluxes of ionization radiation.
ISSN:2073-4352
2073-4352
DOI:10.3390/cryst10030189