1) anti-stokes fluorescence
反斯托克斯荧光
1.
The fibre-optic preforms were produced, the fluoride fibers were fabricated, the anti-stokes fluorescence cooling mechanism was preliminarily researched.
用高纯原料制备了掺镱 1% ,2 % ,3 % m ol的氟锆酸盐玻璃 ,并研制了有芯皮料的氟锆酸盐光纤预制棒 ,拉制了光纤 ,并对它们的吸收谱进行了研究 ,初步探索了它们反斯托克斯荧光制冷机理 。
2.
Spectrum analysis by fluorescence spectrophotometerreveals that the materials appear to produce anti-stokes fluorescence peak with excitation sources atwavelengths longer than those corresponding to the peak of the luminescent bend.
荧光光谱显示,以630nm激发,反斯托克斯荧光峰位于595nm,能量差为0。
2) anti-Stokes fluorescent
反斯托克斯荧光
1.
Thermodynamic analysis on anti-Stokes fluorescent cooling;
反斯托克斯荧光制冷的热力学分析
3) Anti Stocks Fluorescence
反斯托克司荧光
4) anti-Stokes fluorescent cooling
反斯托克斯荧光制冷
1.
Laser cooling of solid material is also called anti-Stokes fluorescent cooling,and it is a developing all-optical cooling technology in recent years.
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。
2.
In the meantime, Anti-Stokes fluorescent cooling has luring future in military, aerospace, satellite, micro-electronics, cryogenic physics, engineering and so on.
从 1 995年 Epstein实现了光与热制冷效应的历史性突破以来 ,由于该制冷方法具有全光性的独特优点 ,同时制备的制冷器具有无振动和噪声、无电磁辐射、体积小、重量轻、可靠性高等特点 ,因此反斯托克斯荧光制冷器在军事、航天卫星、微电子、低温物理与工程等领域具有非常诱人的应用前景。
5) ati-stoke luminescence
反斯托克斯发光
6) anti-Stokes light
反斯托克斯光
1.
This paper, according to the sensibility of anti-stokes light to temperature, making use of many advantages of optical fiber communication, and matching with the electronic control and compensation circuit, designs the system of measuring temperature fields distributed optical fiber sensor for grain depot, the system can come true the stock of corps temperature s real-time controlli.
为此,根据反斯托克斯光对温度的敏感性,利用光纤传输信号的种种优点,配以电子处理与补偿电路,设计了可用于粮库测温的分布式光纤温度场测量系统,该系统可实现对库存粮食温度的实时监控与调整。
补充资料:反斯托克斯荧光
分子式:
CAS号:
性质:荧光物质被入射光激发产生的、其波长小于激发光波长时的荧光。基态原子在受辐射激发之前(或后)吸收火焰的热能(称热助或热活化)已跃迁到较高能级,加之受辐照激发,故又跃迁至更高的能级,尔后辐射跃迁至基态,这时即产生反斯托克斯荧光,又称热助反斯托克斯荧光。
CAS号:
性质:荧光物质被入射光激发产生的、其波长小于激发光波长时的荧光。基态原子在受辐射激发之前(或后)吸收火焰的热能(称热助或热活化)已跃迁到较高能级,加之受辐照激发,故又跃迁至更高的能级,尔后辐射跃迁至基态,这时即产生反斯托克斯荧光,又称热助反斯托克斯荧光。
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