Quantum-Mechanical Calculation of the Intensity Distribution in Raman and Resonance Raman Spectra of a Phenylalanine Aqueous Solution

Burova T. G.; Shcherbakov R. S.

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Quantum-Mechanical Calculation of the Intensity Distribution in Raman and Resonance Raman Spectra of a Phenylalanine Aqueous Solution

机译：苯丙氨酸水溶液拉曼光谱和共振拉曼光谱强度分布的量子力学计算

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Quantum-mechanical calculations of the intensity distribution in the resonance Raman spectrum of an aqueous solution of phenylalanine, excited by light with wavelengths of 193, 204, 218, and 235 nm, and in the nonresonant Raman spectrum excited at a wavelength of 488 nm have been performed. The calculation results are in satisfactory agreement with the experimental data in the literature. Spectral lines characteristic of phenylalanine are observed, which can be used as markers when analyzing the peptide structure. It is noted that the contribution of highly excited electronic states (spaced by less than 10 eV from the resonant lines) to the scattering tensor components must be taken into account. The important role of the Herzberg-Teller effect in the description of spectral intensity distribution is demonstrated.

机译：已经对波长为 193、204、218 和 235 nm 的光激发的苯丙氨酸水溶液的共振拉曼光谱中的强度分布以及波长为 488 nm 的非共振拉曼光谱中的强度分布进行了量子力学计算。计算结果与文献实验数据吻合较好。观察到苯丙氨酸的特征谱线，在分析肽结构时可作为标记。需要注意的是，必须考虑高激发电子态（与谐振线相距小于 10 eV）对散射张量分量的贡献。证明了Herzberg-Teller效应在描述光谱强度分布中的重要作用。

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《Optics and Spectroscopy 》 |2017年第3期| 397-401| 共5页
作者
Burova T. G.; Shcherbakov R. S.;
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Chernyshevsky Saratov State Univ, Saratov 410026, Russia;

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正文语种英语
中图分类光学 ;
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Quantum-Mechanical Calculation of the Intensity Distribution in Raman and Resonance Raman Spectra of a Phenylalanine Aqueous Solution

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