[Pr3+掺杂Y2SiO5(YSO)中3H4的反斯托克斯蓝光荧光及斯塔克分裂]
[Anti-stokes blue fluorescence and stark splitting of 3H4 in Pr3+:Y2SiO5 (YSO)].
作者信息
Zhang Yan-liang, Sun Zhen-rong, Li Yu-qiong, Ding Liang-en, Wang Zu-geng
机构信息
Key Laboratory for Optics and Magnetic Resonance Spectroscopy of Ministry of Education, Department of Physics, East China Normal University, Shanghai 200062, China.
出版信息
Guang Pu Xue Yu Guang Pu Fen Xi. 2004 Apr;24(4):385-7.
In the Pr3+ -doped Y2SiO5, the population in 1D2 of Pr3+ can be transferred to 3P0 state via non-radiative energy transfer by the laser excitation in resonance with 3H4-->1D2 , and we can experimentally study the Stark splitting of 3H4 energy level via 3P0 -->3H4 anti-Stokes emission spectra. Because the anti-Stokes emission spectra can avoid the energy transfer between different crystallographic site 1D2 energy levels, the above splitting lines attribution is more accurate than the assignment via 1D2-->3H4 Stokes spectra by the laser excitation in resonance with 3H4-->1D2. In addition, the character of the anti-Stokes fluorescence decay time was observed.
在掺Pr³⁺的Y₂SiO₅中,通过与³H₄→¹D₂共振的激光激发,Pr³⁺在¹D₂中的粒子数可通过非辐射能量转移转移到³P₀态,并且我们可以通过³P₀→³H₄反斯托克斯发射光谱实验研究³H₄能级的斯塔克分裂。由于反斯托克斯发射光谱可以避免不同晶体位点¹D₂能级之间的能量转移,上述分裂线的归属比通过与³H₄→¹D₂共振的激光激发的¹D₂→³H₄斯托克斯光谱的归属更准确。此外,还观察到了反斯托克斯荧光衰减时间的特性。
Zotero 插件