A well-isolated vibrational state of CO2 verified by near-infrared saturated spectroscopy with kHz accuracy

A well-isolated vibrational state of CO2 verified by near-infrared saturated spectroscopy with kHz accuracy

Quantitative determination of atmospheric CO2 concentration by remote sensing relies on accurate line parameters. Lamb dips of the lines up to J′′ = 72 in the 30013–00001 band at 1605 nm were measured using a comb-locked cavity ring-down spectrometer, and the positions were determined with an accura...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2020, Vol.22 (5), p.2841-2848
Hauptverfasser: Wu, Hao, Chang-Le, Hu, Wang, Jin, Sun, Yu R, Tan, Yan, An-Wen, Liu, Shui-Ming Hu
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Carbon dioxide
Near infrared radiation
Parameters
Remote sensing
Vibrational states
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Zusammenfassung:Quantitative determination of atmospheric CO2 concentration by remote sensing relies on accurate line parameters. Lamb dips of the lines up to J′′ = 72 in the 30013–00001 band at 1605 nm were measured using a comb-locked cavity ring-down spectrometer, and the positions were determined with an accuracy of a few kHz. A simple effective Hamiltonian model can fit the rotational energies in the 30013 state ideally within the experimental accuracy, indicating that the vibrational state is well-isolated and can be regarded as free from perturbations. From a comparison between other bands using a similar analysis, we conclude that the transitions in the 30013–00001 band could be more suitable as reference lines for sensing applications with the potentially improved line parameter accuracy.
ISSN:1463-9076
1463-9084
DOI:10.1039/c9cp05121j