本文通过优化晶体生长工艺,采用提拉法生长了浓度分别为0.5at%、1at%和3at%系列高质量Pr3+掺杂Lu3Al5O12晶体.通过ICP、透射光谱、荧光光谱等系统研究了晶体性能.结果表明:Pr∶ LuAG晶体在紫外光范围内有较强吸收峰;X射线激发荧光峰较光致激发荧光峰发生蓝移;随掺杂浓度的提高,晶体中pr3+的浓度成比例提高,同时晶体的透过率及荧光光谱强度都有相应提高.
参考文献
| [1] | van Eijk C.W.E.;Dorenbos P. .Nd/sup 3+/ and Pr/sup 3+/ doped inorganic scintillators[J].IEEE Transactions on Nuclear Science,1994(4):738-741. |
| [2] | Nikl M;Ogino H;Krasnikov A;Beitlerova A;Yoshikawa A;Fukuda T .Photo- and radioluminescence of Pr-doped Lu3Al5O12 single crystal[J].Physica Status Solidi, A. Applied Research,2005(1):R4-R6. |
| [3] | Ogino H;Yoshikawa A;Nikl M;Kamada K;Fukuda T .Scintillation characteristics of pr-doped Lu3Al5O12 single crystals[J].Journal of Crystal Growth,2006(2):239-242. |
| [4] | Kamada K.;Tsutsumi K.;Usuki Y.;Ogino H.;Yanagida T.;Yoshikawa A. .Crystal Growth and Scintillation Properties of 2-Inch-Diameter <formula formulatype="inline"><tex>${rm Pr}:{rm Lu}_{3}{rm Al}_{5} {rm O} _{12}$</tex> </formula> (Pr:LuAG) Single Crystal[J].IEEE Transactions on Nuclear Science,2008(3):1488-1491. |
| [5] | Melcher C.L.;Schweitzer J.S. .Cerium-doped lutetium oxyorthosilicate: a fast, efficient new scintillator[J].IEEE Transactions on Nuclear Science,1992(4):502-505. |
| [6] | Kapusta M.;Szupryczynski P.;Melcher C.L.;Moszynski M.;Balcerzyk M.;Carey A.A.;Czarnacki W.;Spurrier M.A.;Syntfeld A. .Non-Proportionality and Thermoluminescence of LSO:Ce[J].IEEE Transactions on Nuclear Science,2005(4):1098-1104. |
| [7] | Spurrier M. A.;Szupryczynski P.;Yang K.;Carey A. A.;Melcher C. L. .Effects of <formula formulatype="inline"><tex>$hbox {Ca}^{2+}$</tex> </formula> Co-Doping on the Scintillation Properties of LSO:Ce[J].IEEE Transactions on Nuclear Science,2008(3):1178-1182. |
| [8] | Lecoq P.;Korzhik M. .New inorganic scintillation materials development for medical imaging[J].IEEE Transactions on Nuclear Science,2002(4):1651-1654. |
| [9] | Moszynski M;Wolski D;Ludziejewski T et al.Properties of the New LuAP:Ce Scintillator[J].Nuclear Instruments and Methods in Physics Research,1997,385(01):123-131. |
| [10] | Weber S.;Christ D.;Kurzeja M.;Engels R.;Kemmerling G.;Halling H. .Comparison of LuYAP, LSO, and BGO as scintillators for high resolution PET detectors[J].IEEE Transactions on Nuclear Science,2003(5):1370-1372. |
| [11] | Korzbik M;Federov A;Annenkov A et al.Development of Scintillator Materials for PET Scanners[J].Nuclear Instruments and Methods in Physics Research,2007,571(1-2):122-125. |
| [12] | Shah K S;Glodo J;Klugerman M et al.LaBr3:Ce Scintillators for Gamma-ray Spectroscopy[J].IEEE Transaction on Nudear Science,2003,50(06):2410-2413. |
| [13] | Glodo J.;Moses W.W.;Higgins W.M.;van Loef E.V.D.;Wong P.;Derenzo S.E.;Weber M.J.;Shah K.S. .Effects of Ce concentration on scintillation properties of LaBr/sub 3/:Ce[J].IEEE Transactions on Nuclear Science,2005(5):1805-1808. |
| [14] | V. Babin;A. Krasnikov;Y. Maksimov;K. Nejezchleb;M. Nikl;T. Savikhina;S. Zazubovich .Luminescence of Pr~(3+) -doped garnet single crystals[J].Optical materials,2007(1):30-32. |
| [15] | Winicjusz D;Pieter D;Johan T et al.Scintillation Properties of Praseodymium Activated Lu3Al5O12 Single Crystals[J].IEEE Transactions on Nuclear Science,2009,56(01):320-327. |
| [16] | Drozdowski W;Dorenbos P;Drozdowska R et al.Effect of Electron Traps on Scintillation of Praseodymium Activated Lu3Al5O12[J].IEEE Transactions on Nuclear Science,2008,55(04):2420-2422. |
| [17] | J. Legendziewicz;M. Guzik;J. Cybinska;A. Stefan;V. Lupei .Concentration dependence of luminescence properties in praseodymium and praseodymium/ytterbium-doped lutetium double phosphates[J].Optical materials,2008(11):1667-1671. |
| [18] | Wang H Y;Yang Y;Wang Y et al.Facilile Synthesis of Luminescent One-dimensional Nanostructural Praseodymium Oxyfluoride[J].Materials Science and Engineering B:Solid-state materials for advanced technology,2008,147(01):69-73. |
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