1) transfer of resonant energy
共振能量迁移
1.
The transfer of resonant energy of auto combination switch and its measuring method;
汽车组合开关共振能量迁移及测量方法
2) Resonance shift
共振迁移
3) formant transition
共振峰迁移
4) resonant energy transfer
共振能量转移
1.
The results show that Eu 3+ luminescence is sensitized by Bi 3+ in silicate glass on the basis of the resonant energy transfer, Eu 3+ luminescences are sensitized by Pr 3+ and Sm 3+ in phosphate glasses.
结果表明,硅酸盐玻璃中Bi3+向Eu3+离子产生共振能量转移而对Eu3+发光起敏化作用;磷酸盐玻璃中,Pr3+,Sm3+对Eu3+离子产生特征激发敏化发光,提出了声子支助的共振能量转移模型,解释了Eu3+的敏化发光。
5) resonance energy transfer
能量共振转移
6) energy migration
能量迁移
1.
By Application of the V\|F\|B model which is obtained by combining the Vasquez\|Flint (V\|F) model for donor\|acceptor energy transfer and the model of Burshtein for donor\|donor energy migration, the experimental luminescence decay curves of 4S 3/2 state of Er 3+ in LaF\-3 at 295K for four different concentrations are re\|simulated successfully.
基于以前综合V F模型 (考虑施主 受主 (D A)能量传递 )和B模型 (考虑施主 施主 (D D)能量迁移 )而提出的V F B综合模型 ,对La1-xErxF3 体系中Er3 +离子四种低掺杂浓度下 (x =0 0 0 1,0 0 0 3,0 0 1,0 0 2 ) 2 95K时4 S3/2 →4 I15/2 发光的时间演化曲线成功地重新进行了数值拟合 。
2.
With the help of I H model and Y T model, the luminescence decay curve of 3H 4 of Tm 3+ was fitted, and the fitted values of corresponding energy transfer interaction parameter C DA and energy migration interaction parameter C DD were calculated.
首先 ,藉助I H ,Y T模型拟合了Tm3+ 的3H4 的发光衰减曲线 ,得到了相应的能量迁移和能量传递 (交叉弛豫3H4 + 3H6 →3F4 + 3F4 )的作用参数CDD和CDA的拟合值。
补充资料:电子自旋共振(见电子回旋共振)
电子自旋共振(见电子回旋共振)
electron spin resonance
电子自旋共振eleetron spin resonanee见电子回旋共振。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条