The Experts below are selected from a list of 210 Experts worldwide ranked by ideXlab platform
Winicjusz Drozdowski - One of the best experts on this subject based on the ideXlab platform.
-
effect of lu to y ratio and mo coactivation on scintillation properties of luyag pr and luag pr mo crystals
Optical Materials, 2016Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A Drewniak, Z Masewicz, A J Wojtowicz, J Kisielewski, M świrkowiczAbstract:Abstract In this paper the basic scintillation and Thermoluminescence properties of LuYAG:Pr and LuAG:Pr,Mo crystals are reported. It is shown that, primarily, both materials display significantly higher scintillation yields than their prototype LuAG:Pr. The results of radioluminescence, low and high temperature Thermoluminescence, and scintillation time profile measurements are analyzed quantitatively to allow us a better understanding of the scintillation process in LuYAG:Pr and LuAG:Pr,Mo, as well as to let us propose or verify possible explanations of the observed yield enhancement.
-
studies of light yield as a function of temperature and low temperature Thermoluminescence of gd3al2ga3o12 ce scintillator crystals
Optical Materials, 2014Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A J Wojtowicz, P Solarz, Kei Kamada, Akira YoshikawaAbstract:Abstract In this paper we report the measurements of pulse height spectra, radioluminescence spectra at various temperatures between 10 and 325 K, and low temperature Thermoluminescence glow curves of Gd 3 Al 2 Ga 3 O 12 :Ce. It is shown that the scintillation yield of the studied material correlates with the concentration of cerium and anti-correlates with the Thermoluminescence intensity. However, regardless of the cerium content, the yield at room temperature is almost twice lower than below 180 K.
M. Barboza-flores - One of the best experts on this subject based on the ideXlab platform.
-
Thermoluminescence properties of ZnO and ZnO:Yb nanophosphors
Applied Physics Letters, 2006Co-Authors: Umapada Pal, R. Meĺndrez, V. Chernov, M. Barboza-floresAbstract:ZnO and ZnO:Yb Thermoluminescence nanophosphors have been developed and\ntested under beta radiation. Spherical nanoparticles of sizes ranging\nfrom 130 to 1200 nm were prepared through a glycol mediated chemical\nsynthesis. The Yb doping had a Thermoluminescence quenching effect\ncompared to undoped ZnO. The 5% Yb concentration produced a low fading,\na single Thermoluminescence glow peak structure, and a dose linearity\nbehavior adequate for Thermoluminescence dosimetry applications. The\nZnO:Yb nanophosphor has a great potential as a dosimeter for monitoring\nin ionizing radiation fields.\n
A J Wojtowicz - One of the best experts on this subject based on the ideXlab platform.
-
effect of lu to y ratio and mo coactivation on scintillation properties of luyag pr and luag pr mo crystals
Optical Materials, 2016Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A Drewniak, Z Masewicz, A J Wojtowicz, J Kisielewski, M świrkowiczAbstract:Abstract In this paper the basic scintillation and Thermoluminescence properties of LuYAG:Pr and LuAG:Pr,Mo crystals are reported. It is shown that, primarily, both materials display significantly higher scintillation yields than their prototype LuAG:Pr. The results of radioluminescence, low and high temperature Thermoluminescence, and scintillation time profile measurements are analyzed quantitatively to allow us a better understanding of the scintillation process in LuYAG:Pr and LuAG:Pr,Mo, as well as to let us propose or verify possible explanations of the observed yield enhancement.
-
studies of light yield as a function of temperature and low temperature Thermoluminescence of gd3al2ga3o12 ce scintillator crystals
Optical Materials, 2014Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A J Wojtowicz, P Solarz, Kei Kamada, Akira YoshikawaAbstract:Abstract In this paper we report the measurements of pulse height spectra, radioluminescence spectra at various temperatures between 10 and 325 K, and low temperature Thermoluminescence glow curves of Gd 3 Al 2 Ga 3 O 12 :Ce. It is shown that the scintillation yield of the studied material correlates with the concentration of cerium and anti-correlates with the Thermoluminescence intensity. However, regardless of the cerium content, the yield at room temperature is almost twice lower than below 180 K.
Kamil Brylew - One of the best experts on this subject based on the ideXlab platform.
-
effect of lu to y ratio and mo coactivation on scintillation properties of luyag pr and luag pr mo crystals
Optical Materials, 2016Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A Drewniak, Z Masewicz, A J Wojtowicz, J Kisielewski, M świrkowiczAbstract:Abstract In this paper the basic scintillation and Thermoluminescence properties of LuYAG:Pr and LuAG:Pr,Mo crystals are reported. It is shown that, primarily, both materials display significantly higher scintillation yields than their prototype LuAG:Pr. The results of radioluminescence, low and high temperature Thermoluminescence, and scintillation time profile measurements are analyzed quantitatively to allow us a better understanding of the scintillation process in LuYAG:Pr and LuAG:Pr,Mo, as well as to let us propose or verify possible explanations of the observed yield enhancement.
-
studies of light yield as a function of temperature and low temperature Thermoluminescence of gd3al2ga3o12 ce scintillator crystals
Optical Materials, 2014Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A J Wojtowicz, P Solarz, Kei Kamada, Akira YoshikawaAbstract:Abstract In this paper we report the measurements of pulse height spectra, radioluminescence spectra at various temperatures between 10 and 325 K, and low temperature Thermoluminescence glow curves of Gd 3 Al 2 Ga 3 O 12 :Ce. It is shown that the scintillation yield of the studied material correlates with the concentration of cerium and anti-correlates with the Thermoluminescence intensity. However, regardless of the cerium content, the yield at room temperature is almost twice lower than below 180 K.
Marcin E Witkowski - One of the best experts on this subject based on the ideXlab platform.
-
effect of lu to y ratio and mo coactivation on scintillation properties of luyag pr and luag pr mo crystals
Optical Materials, 2016Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A Drewniak, Z Masewicz, A J Wojtowicz, J Kisielewski, M świrkowiczAbstract:Abstract In this paper the basic scintillation and Thermoluminescence properties of LuYAG:Pr and LuAG:Pr,Mo crystals are reported. It is shown that, primarily, both materials display significantly higher scintillation yields than their prototype LuAG:Pr. The results of radioluminescence, low and high temperature Thermoluminescence, and scintillation time profile measurements are analyzed quantitatively to allow us a better understanding of the scintillation process in LuYAG:Pr and LuAG:Pr,Mo, as well as to let us propose or verify possible explanations of the observed yield enhancement.
-
studies of light yield as a function of temperature and low temperature Thermoluminescence of gd3al2ga3o12 ce scintillator crystals
Optical Materials, 2014Co-Authors: Winicjusz Drozdowski, Kamil Brylew, Marcin E Witkowski, A J Wojtowicz, P Solarz, Kei Kamada, Akira YoshikawaAbstract:Abstract In this paper we report the measurements of pulse height spectra, radioluminescence spectra at various temperatures between 10 and 325 K, and low temperature Thermoluminescence glow curves of Gd 3 Al 2 Ga 3 O 12 :Ce. It is shown that the scintillation yield of the studied material correlates with the concentration of cerium and anti-correlates with the Thermoluminescence intensity. However, regardless of the cerium content, the yield at room temperature is almost twice lower than below 180 K.