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Characteristics of rare earth (RE = Eu,Tb, Tm)‐doped Y2O3 phosphors for thermometry
Authors:Naohiro Ishiwada  Toshihisa Ueda  Takeshi Yokomori
Affiliation:Department of Mechanical Engineering, Keio University, 3‐14‐1 Hiyoshi Kohoku‐ku, Yokohama‐shi, Kanagawa, Japan
Abstract:The temperature‐dependent photoluminescences of Y2O3:Eu (6% Eu), Y2O3:Tb (4% Tb) and Y2O3:Tm (1% Tm) were investigated for high‐temperature phosphor thermometry. Two different phases, the monoclinic phase and cubic phase, were considered because the fluorescence spectra vary with the phase. To employ the intensity ratio method, we investigated their photoluminescence spectra under the excitation light of an Hg–Xe lamp as the temperature was elevated from room temperature to more than 1200 K. As a result, it was confirmed that the luminescence intensity of all of the phosphors varied with elevating temperature, i.e. thermal quenching, with the variations depending on the type of rare earth impurity and their phases. The results indicate that Y2O3:Eu phosphors are applicable to the intensity ratio method because they show appropriate variations in the intensity ratio of two emission lines, and they also have strong and sharp peak intensities without excessive optical noise or black body radiation over a wide range of temperatures. The intensity ratios for Y2O3:Tb provide such small variations with temperature that the temperature resolution is low, despite the strong emission intensities. As for Y2O3:Tm, the intensity ratios also have a low temperature resolution and their emission intensities are weak. Therefore, Y2O3:Tb and Y2O3:Tm are not appropriate for the intensity ratio method for phosphor thermometry. Copyright © 2010 John Wiley & Sons, Ltd.
Keywords:phosphor thermometry  intensity ratio method  thermal quenching  yttrium oxide
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