Oxide and fluoride single crystals for scintillator applications |
M. Nikl
(Institute of Physics AS CR, Prague, Czech Republic)
K. Blazek (CRYTUR Ltd.) P. Fabeni (IROE del CNR) A. Vedda (INFM & Department of Material Science, University of Milan-Bicoca) M. Martini (INFM & Department of Material Science, University of Milan-Bicoca) M. Kobayashi (KEK, IPNS) K. Shimamura (Institute for Materials Research, Tohoku University) T. Fukuda (Institute for Materials Research, Tohoku University) |
1 |
Photoinduced Pb+ center in PbWO₄:Electron Spin Resonance and Thermally Stimulated Luminescence study
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2 |
Recombination and scintillation processes in YalO₃:Ce
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3 |
Influence of Mo inpurity on the spectroscopic and scintillation properties of PbWO₄crystals
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4 |
Extensive studies on CeF₃crystals
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5 |
Hole self-trapping and recombination in LiBaF₃
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6 |
Growth and optical characteristics of Ce-doped and Ce:Na-codoped BaLiF₃singel crystals
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7 |
Bridgman singel crystal growth of Ce-doped(Lu Y)AlO₃
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8 |
Radiation induced processes in LiBaF₃based crystals
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9 |
Polaronic WO₄³- centres in PbWO₄singel crystals
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10 |
Radiation induced formation of color centres in PbWO₄single crystals
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11 |
Electron traps in the scintillator material PbWO₄and their correlation to thermally stimulated Iuminiscence
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12 |
Electron traps and scintillation mechanism in YAIO₃:Ce and LuALO₃:Ce scintillators
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13 |
Slow components in the photoluminescence and scintillation properties of PbWO₄single crystals
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14 |
Electron-irradiation-induced defects in BaLiF₃crystals
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15 |
A thermal neutron scintillator with n/γ discrimination LiBaF₃:Ce Pb
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16 |
Electron spin-resonance study on Ce³+ in LiBaF₃
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17 |
Singel crystals of tungsten compounds as promising materials for te total absorption detectors of the EM calorimeters
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18 |
R-type centers in LiBaF₃crystals
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19 |
Development of new mixed Lux(RE³+)₁_xAlO₃:Ce scintillators (RE³+=Y³+ or Gd³+):Comparitals
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20 |
Efficient Medium-Speed PbWO₄:Mo
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21 |
Optical spectroscopy of Ce³+ in BaLiF₃
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22 |
WIDE BAND GAP SCINTILLATION MATERIALS. Progress in the technology and material understanding
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23 |
Scintillation characteristics of PbWO₄singel crystals at room temperature
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24 |
Spectroscopy and scintillation properties of cerium doped YalO₃singel crystals
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25 |
Tunnelling process in thermally stimulated luminescence of mixed Lux Y_x AlO₃:Ce crystals
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26 |
optical absorption and luminescence energy calculations of Ce ³+ defects in LiBaF₃
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27 |
Improved light yield of lead tungstate scintillators
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28 |
Radiation damage in pure and rare earth doped LiBaF₃crystals
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29 |
LiBaF3 a thermal neutron scintilator with optimal n-γ discromination
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30 |
Investigatio of shallow traps in PbWO₄by wawelength resolved thermally stimulated luminescence
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31 |
Suppression of radiation damage in lead tungstate scintillation crystals
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32 |
Improvement in transmittance and decay time of PbWO₄scintillating crystals by La-doping
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33 |
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34 |
Decay kinetics and thermoluminescence of PbWO₄:La³+
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35 |
Photoinduced(WO₄)³-La³+ center in PbWO₄:Electron spin resonance and thermally stimulated luminescence study
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36 |
Optical and scintillation properties of Ce³+ doped LiYF₄and LiLuF₄crystals
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37 |
Luminescence of oxygen and magnesium containing LIBaF₃crystals
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38 |
Optical spectroscopy properties and charge compensation of BaLiF₃doped with Ce³+
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39 |
Single-crystals for radeiation detectors
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40 |
Optical spectra of Ce³+ and Ce³+ sensitized fluorescence in YalO₃
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41 |
Alkali halide scintillation conunters
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42 |
EPR of radiation induced MoO₄³- centres in lead tungstate
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43 |
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44 |
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45 |
Influence of La-doping on radiation Hardness and thermoluminescence characteristics of PbWO₄
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