2) Laser fluorescence
激光荧光法
1.
Research progress and assessment of laser fluorescence method for early caries detection
激光荧光法诊断早期龋的研究进展及评价
2.
This paper maily introducts the appliance of optical coherence tomography, quantitative light-induced fluorescence, laser fluorescence and eletronic resistance methods in the detection and diagnosis of root caries.
本文重点介绍光学相干层析技术、定量光导荧光法、激光荧光法以及电阻抗法在老年人根龋早期诊断中的运用。
3) photodynamic therapy
激光荧光检查法
1.
Laser photodynamic therapy with hematoporphyrin derivative in tumor diagnosis;
激光荧光检查法在肿瘤定位诊断中的应用
4) LIF
激光诱导荧光法
1.
New Conceptual Mixture Formation and Combustion for a Diesel Engine by LIF Method;
激光诱导荧光法研究柴油机新概念燃烧中的喷雾混合过程
2.
Mixture distribution in the cylinder of a LPG engine was quantitatively measured by using PLIF in direct injection mode.
使用平面激光诱导荧光法(PLIF)对缸内直喷液化石油气(LPG)混合气分布进行了定量研究。
5) laser induced fluorescence
激光诱导荧光法
1.
In this article, several primary plasma diagnostics techniques used in plasma etch- ing are discussed, including Langmuir probes, optical emission spectroscopy (OES), laser induced fluorescence (LIF), spectroscopic ellipsometry and mass spectroscopy.
讨论了几种主要的等离子体诊断技术:l a n g m u i r 探针,发射光谱法(O E S),激光诱导荧光法(L I F),光谱椭偏法,质谱法,并就其技术特点及在实际运用时面临的问题进行了详细的讨论。
2.
Recent development of laser induced fluorescence technology applied to combustion research has been illustrated,and the advantages of this measuring method are analyzed and concluded.
文章介绍了激光诱导荧光法测量燃烧参数的国内外最新进展 ,分析和总结了该测量方法在燃烧系统中应用的优越性。
6) Laser fluorescence
激光荧光
1.
AIM: Using a new laser fluorescence device - the KaVo DIAGNOdent,we studied the occlusive effects of mixed solution of NaHCO 3 and NaF on dentinal tubules.
目的 :用激光荧光仪 (KaVoDIAGNOdent)定量研究碳酸氢钠和氟化钠混合液对牙本质小管的堵塞作用。
补充资料:激光诱导分子荧光光谱法
分子式:
CAS号:
性质: 用激光作激发光源的分子荧光分析法。采用激光器,特别是可调谐激光器,作激发光源有许多优点。不仅使测量灵敏度显著提高且线性范围更宽;利用激光光源方向性好,可聚焦成很小光斑的特点,可实现单细胞,乃至单细胞核内元素的测定,以及微区近似无损的分析;利用激光超短脉冲技术,可获得皮秒光谱,满足纳秒级荧光寿命的分辨和时间分辨荧光光谱法的要求,以及激发、弛豫等皮秒过程的快速分析。
CAS号:
性质: 用激光作激发光源的分子荧光分析法。采用激光器,特别是可调谐激光器,作激发光源有许多优点。不仅使测量灵敏度显著提高且线性范围更宽;利用激光光源方向性好,可聚焦成很小光斑的特点,可实现单细胞,乃至单细胞核内元素的测定,以及微区近似无损的分析;利用激光超短脉冲技术,可获得皮秒光谱,满足纳秒级荧光寿命的分辨和时间分辨荧光光谱法的要求,以及激发、弛豫等皮秒过程的快速分析。
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