1) resonance Raman process
共振拉曼作用
2) Resonance Raman
共振拉曼
1.
Resonance Raman Spectra of Single Red-Cell from Human Blood;
人血单个红细胞的共振拉曼光谱研究
2.
Resonance Raman Intensities and Structure of S_2 State of Nickel(II) Porphyrin by Time-Dependent Approach;
时间域方法分析镍卟啉的共振拉曼强度与S_2激发态结构
3.
J Aggregation of Porphyrin Diacid H 2+ 4TSPP Studied by Resonance Raman Spectroscopy;
共振拉曼光谱研究卟啉二酸H_4~(2+)TSPP的J-聚焦
3) resonance Raman spectrum
共振拉曼光谱
1.
The susceptibility of inital intergranular corrosion of sensitized passive film has been judged by using photoelectrochemical laser imaging technique (PECLI) and analying the dissolved product of passive film with Resonance Raman Spectrum (RRS).
结合激光扫描光电化学微区成像技术(PECLI)和共振拉曼光谱(RRS)测定钝化膜溶解产物的方法,对敏化不锈钢的晶间腐蚀敏感性进行了初步评价。
4) Non-resonance Raman spectroscopy
非共振拉曼光谱
5) resonant Raman scattering
共振拉曼散射
1.
When the photon energy of an incident light is close to E\-0+Δ\-0 of Hg 1- x Cd x Te, we observe the resonant Raman scattering, “forbidden” resonant enhancement Raman scattering and the second\|order resonant Raman scattering.
当入射光的光子能量接近Hg1 -xCdxTe的E0 +Δ0 时 ,发现了Hg1 -xCdxTe的共振拉曼散射 ,观察到了“禁戒”共振增强拉曼散射 ,同时也观察到了二级共振拉曼散射 。
2.
Ultraviolet (UV) Raman scattering,especially UV resonant Raman scattering is an important area of spectroscopic analysis.
介绍了紫外拉曼散射,尤其是紫外共振拉曼散射的突出优点,并举例说明了该项技术在生物大分子结构研究、环境痕量污染物(如多环芳香碳氢化合物)的检测和CVD金刚石薄膜质量鉴定中的应用。
6) UVRR
紫外共振拉曼
1.
CONFORMATIONAL CHANGES OF HemAT PROTEIN FROM Bacillus subtilis UPON O_2 BINDING STUDIED BY UVRR;
枯草菌HemAT蛋白质结合配基O_2的构象变化——紫外共振拉曼光谱研究
补充资料:共振拉曼光谱
分子式:
CAS号:
性质:当激发光的频率接近或等于某一电子激发态的激发频率时,某些拉曼线的强度会急剧增大,称为共振拉曼效应。共振拉曼线的强度有时是正常拉曼线的106倍。共振拉曼光谱的特点是拉曼散射强度选择性增强,出现泛频和组合频,出现反常偏振。
CAS号:
性质:当激发光的频率接近或等于某一电子激发态的激发频率时,某些拉曼线的强度会急剧增大,称为共振拉曼效应。共振拉曼线的强度有时是正常拉曼线的106倍。共振拉曼光谱的特点是拉曼散射强度选择性增强,出现泛频和组合频,出现反常偏振。
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