![SOLVED: Q6 High-resolution vibrational spectroscopy for H"SCl gives transition Vo+ CIn (fundamental) 2885. 32 (first ovcrtone) 5668, 0 3 (second overtone) 8347.0 0 =4 (third overtone) 10,923, 0 5 (fourth overtone) 13,396.5 SOLVED: Q6 High-resolution vibrational spectroscopy for H"SCl gives transition Vo+ CIn (fundamental) 2885. 32 (first ovcrtone) 5668, 0 3 (second overtone) 8347.0 0 =4 (third overtone) 10,923, 0 5 (fourth overtone) 13,396.5](https://cdn.numerade.com/ask_images/848aa10a19a9467e8f926e92012c4b74.jpg)
SOLVED: Q6 High-resolution vibrational spectroscopy for H"SCl gives transition Vo+ CIn (fundamental) 2885. 32 (first ovcrtone) 5668, 0 3 (second overtone) 8347.0 0 =4 (third overtone) 10,923, 0 5 (fourth overtone) 13,396.5
![Modeling vibrational anharmonicity in infrared spectra of high frequency vibrations of polyatomic molecules: The Journal of Chemical Physics: Vol 150, No 9 Modeling vibrational anharmonicity in infrared spectra of high frequency vibrations of polyatomic molecules: The Journal of Chemical Physics: Vol 150, No 9](https://aip.scitation.org/action/showOpenGraphArticleImage?doi=10.1063/1.5079626&id=images/medium/1.5079626.figures.online.highlight_f1.jpg)
Modeling vibrational anharmonicity in infrared spectra of high frequency vibrations of polyatomic molecules: The Journal of Chemical Physics: Vol 150, No 9
![Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine | Nature Communications Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine | Nature Communications](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41467-020-18211-3/MediaObjects/41467_2020_18211_Fig1_HTML.png)
Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine | Nature Communications
![Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine | Nature Communications Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine | Nature Communications](https://media.springernature.com/lw685/springer-static/image/art%3A10.1038%2Fs41467-020-18211-3/MediaObjects/41467_2020_18211_Fig3_HTML.png)