以二聚体模型解释了反斯托克斯荧光频移效应。
最后,就反斯托克斯荧光制冷的一种最新应用及其前景进行了简单介绍与展望。
In final, one recent application of anti-Stokes fluorescence cooling and its prospects are briefly introduced and looked ahead.
固体材料的激光制冷又称反斯托克斯荧光制冷,是近年来刚兴起的全光学制冷技术。
Laser cooling of solid material is also called anti-Stokes fluorescent cooling, and it is a developing all-optical cooling technology in recent years.
本文详细地介绍了反斯托克斯荧光制冷研究的历史和最新进展,详细地介绍了该项研究中的方法和理论。
In this paper, we introduce the history and progress of anti Stokes fluorescent cooling, and show out its investigating methods and theories.
通过对样品的反斯托克斯喇曼光谱的测量,确定了基质的最大声子能量,在此基础上分析了上转换荧光的产生机制。
The maximum phonon energy is obtained by measuring anti stokes Raman shifts of the samples, and the up conversion mechanism is briefly discussed.
通过对样品的反斯托克斯喇曼光谱的测量,确定了基质的最大声子能量,在此基础上分析了上转换荧光的产生机制。
The maximum phonon energy is obtained by measuring anti stokes Raman shifts of the samples, and the up conversion mechanism is briefly discussed.
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