Luminescence Spectra of YGG:RE^3+, Bi^3+ (RE = Eu and Tb) and Energy Transfer from Bi^3+ to RE^3+  被引量:1

Luminescence Spectra of YGG:RE^3+, Bi^3+ (RE = Eu and Tb) and Energy Transfer from Bi^3+ to RE^3+

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作  者:朱南飞 李永祥 于晓峰 

机构地区:[1]The State Key Lab of High Performance Ceramics and Superfine Microstructure, Shanghai institute of Ceramics Chinese Academy of Sciences, Shanghai 200050 [2]Postgraduate School of the Chinese Academy of Sciences, Beijing 100049

出  处:《Chinese Physics Letters》2008年第2期703-706,共4页中国物理快报(英文版)

摘  要:We investigate the luminescence properties of Bi^3+ and RE^3+ (RE = Tb or Eu) in a Y3Ga5O12 (YGG) host system. The additional doping of Bi^3+ can enhance the luminescence of Th^3+ or Eu^3+ in this host. Energy transfer from Bi^3+ to Tb^3+ and Eu^3+ is observed and the mechanism of energy transfer is investigated. Mechanism of energy transfer can be explained as electric multipole interaction since the Bi^3+ emission band and Tb^3+ or Eu^3+ excitation band overlaps and the Bi^3+ emission intensity decreases while the intensity of Tb^3+ or Eu^3+ increases with the increase of Tb^3+ or Eu^3+ concentration. Therefore, Bi^3+ ion is a kind of efficient sensitizer to the Tb^3+ and Eu^3+ activators in the Y3Ga5O12 host.We investigate the luminescence properties of Bi^3+ and RE^3+ (RE = Tb or Eu) in a Y3Ga5O12 (YGG) host system. The additional doping of Bi^3+ can enhance the luminescence of Th^3+ or Eu^3+ in this host. Energy transfer from Bi^3+ to Tb^3+ and Eu^3+ is observed and the mechanism of energy transfer is investigated. Mechanism of energy transfer can be explained as electric multipole interaction since the Bi^3+ emission band and Tb^3+ or Eu^3+ excitation band overlaps and the Bi^3+ emission intensity decreases while the intensity of Tb^3+ or Eu^3+ increases with the increase of Tb^3+ or Eu^3+ concentration. Therefore, Bi^3+ ion is a kind of efficient sensitizer to the Tb^3+ and Eu^3+ activators in the Y3Ga5O12 host.

关 键 词:PULSARS x-ray spectra relativity and gravitation REDSHIFT 

分 类 号:TB34[一般工业技术—材料科学与工程] O482.31[理学—固体物理]

 

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