Abstract
The absorption spectrum of the 18O3 isotopologue of ozone was recorded by CW-Cavity Ring Down Spectroscopy in the 6950–7125cm−1 region. The typical noise equivalent absorption of the recordings is αmin ≈1×10−10cm−1. The spectrum is dominated by three very weak bands: 3ν1+5ν3 near 7009cm−1 and the ν2+7ν3 and 4ν2+5ν3 interacting bands near 7100cm−1. In total 260, 206 and 133 transitions were assigned for the 3ν1+5ν3, ν2+7ν3 and 4ν2+5ν3 bands, respectively. The line positions of the 3ν1+5ν3 band were modelled using an effective Hamiltonian (EH) model involving two dark states – (601) and (252) – in interaction with the (305) bright state. The EH model developed for the ν2+7ν3 and 4ν2+5ν3 bands involves only the (017) and (045) interacting bright states. Line positions could be reproduced with rms deviations on the order of 0.01cm−1 and the dipole transition moment parameters were determined for the three observed bands. The obtained set of parameters and the experimentally determined energy levels were used to generate a list of 984 transitions of the three bands which is provided as Supplementary Material.
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More From: Journal of Quantitative Spectroscopy and Radiative Transfer
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