1) Circularly polarized photoluminescence
圆偏振荧光
2) Fluorescence polarization
荧光偏振
1.
Rapid detection of HPV16 E7 point mutation at codon 29 with fluorescence polarization;
荧光偏振方法快速检测HPV16 E7第29位密码子点突变
2.
Detection of mutations of HBV polymerase gene in serum by fluorescence polarization;
荧光偏振检测血清中HBV多聚酶基因突变
3.
Based on the fluorescence polarization technology of gene detection analysis system;
基于荧光偏振技术的基因检测分析系统
3) Polarized fluorescence
偏振荧光
4) circularly polarized light
圆偏振光
1.
Reflection and polarization characteristics of circularly polarized light at the surface of a chiral negative refraction medium;
圆偏振光在手征负折射材料表面的反射和极化特性研究
2.
The design of a new beam splitter for circularly polarized light;
一种新型的圆偏振光分束器的设计及分析
3.
Nonlinear propagation of circularly polarized light in magneto-optic fiber Bragg gratings
磁光光纤Bragg光栅中圆偏振光的非线性传输特性
5) circular polarized light
圆偏振光
1.
Therefore it is clearly shown that reflected light is linear polarized light just on the condition of total reflection or glancing incidence and circular polarized light may emerge in other cases.
结果表明,只有在刚刚发生全反射或掠入射时,反射光才是线偏振光,在其它情况下可能出现圆偏振光。
2.
This paper points out that a beam of linearly polarized light will generally turn into elliptically polarized light after being totally reflected by the medium division plane, and it mainly discusses the conditions of turning into circular polarized light.
本文指出线偏振光经介质分界面全反射后一般情况下将蜕变成椭圆偏振光,并着重讨论了蜕变成圆偏振光的条
6) circular polarization
圆偏振光
1.
Spatiotemporal self-compression of high-intensity femtosecond pulses with linear and circular polarization in normally dispersive media is experimentally studied.
圆偏振光入射时,可以获得更短脉冲宽度的压缩脉冲和更窄的光谱宽度。
补充资料:荧光偏振
分子式:
CAS号:
性质:在偏振光激发下,荧光体发射的荧光亦是偏振光,从而在乎行和垂直于激发光偏振方向所观察到的荧光强度I//和I⊥是不同的。荧光偏振可以用荧光偏振度P和各向异性r来度量。荧光偏振与荧光体的分子形状、转动速度,与荧光体的吸光对偏振激发的取向、光选择性、激发矩与发射矩是否共线等因素有关。P和r的测量可揭示荧光体吸收光子和随后发射光子的平均角移。
CAS号:
性质:在偏振光激发下,荧光体发射的荧光亦是偏振光,从而在乎行和垂直于激发光偏振方向所观察到的荧光强度I//和I⊥是不同的。荧光偏振可以用荧光偏振度P和各向异性r来度量。荧光偏振与荧光体的分子形状、转动速度,与荧光体的吸光对偏振激发的取向、光选择性、激发矩与发射矩是否共线等因素有关。P和r的测量可揭示荧光体吸收光子和随后发射光子的平均角移。
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