par Cacciani, Patrice;Čermák, Peter;Vander Auwera, Jean ;Campargue, Alain
Référence Journal of quantitative spectroscopy & radiative transfer, 292, 108350
Publication Publié, 2022-12-01
Référence Journal of quantitative spectroscopy & radiative transfer, 292, 108350
Publication Publié, 2022-12-01
Article révisé par les pairs
Résumé : | Room temperature absorption spectra of ammonia were recorded by high-resolution Fourier transform spectroscopy in the 4700–5600 cm−1 range at four pressures (13, 46, 140, and 304 Pa). Additionally, we use an existing Kitt Peak spectrum to extend the analysis up to 5650 cm−1. In total, 9110 absorption lines with intensity ranging from 1×10−25 to 1.6×10−20 cm/molecule were retrieved, for the two principal isotopologues. Another Kitt Peak spectrum was used to identify 505 15NH3 transitions within the experimental line list. The rovibrational assignments of the 14NH3 lines relied on the position and intensity agreement with the C2018 theoretical line list (Coles et al. JQSRT 2018;219 199–212) and were validated by the systematic use of Lower State Combination Difference (LSCD) relations. In the process, a number of intensity transfer between nearby transitions were identified. Finally, 6562 transitions were assigned to 61 vibrational bands of the main isotopologue, 14NH3, representing 98.85% of the C2018 integrated absorption at room temperature in the region. The upper state empirical energy of a total of 2215 rovibrational levels of 14NH3 were derived. Most of them are newly reported. The comparison with the current HITRAN2020 list is discussed. A recommended line list for ammonia in natural isotopic abundance is provided for the studied region. |