High resolution study of the ν2 and ν5 rovibrational fundamental bands of thionyl chloride: Interplay of an evolutionary algorithm and a line-by-line analysis - Université du Littoral Côte d'Opale Accéder directement au contenu
Article Dans Une Revue Journal of Chemical Physics Année : 2017

High resolution study of the ν2 and ν5 rovibrational fundamental bands of thionyl chloride: Interplay of an evolutionary algorithm and a line-by-line analysis

Marie-Aline Martin-Drumel
Sven Thorwirth
W. Leo Meerts
A. Cuisset

Résumé

The ν2 and ν5 fundamental bands of thionyl chloride (SOCl2) were measured in the 420 cm−1–550 cm−1 region using the FT-far-IR spectrometer exploiting synchrotron radiation on the AILES beamline at SOLEIL. A straightforward line-by-line analysis is complicated by the high congestion of the spectrum due to both the high density of SOCl2 rovibrational bands and the presence of the ν2 fundamental band of sulfur dioxide produced by hydrolysis of SOCl2 with residual water. To overcome this difficulty, our assignment procedure for the main isotopologues 32S16O35Cl2 and 32S16O35Cl37Cl alternates between a direct fit of the spectrum, via a global optimization technique, and a traditional line-by-line analysis. The global optimization, based on an evolutionary algorithm, produces rotational constants and band centers that serve as useful starting values for the subsequent spectroscopic analysis. This work helped to identify the pure rotational submillimeter spectrum of 32S16O35Cl2 in the v2=1 and v5=1 vibrational states of Martin-Drumel et al. [J. Chem. Phys. 144, 084305 (2016)]. As a by-product, the rotational transitions of the v4=1 far-IR inactive state were identified in the submillimeter spectrum. A global fit gathering all the microwave, submillimeter, and far-IR data of thionyl chloride has been performed, showing that no major perturbation of rovibrational energy levels occurs for the main isotopologue of the molecule.

Dates et versions

hal-04218554 , version 1 (26-09-2023)

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Citer

Anthony Roucou, Marie-Aline Martin-Drumel, Sven Thorwirth, Daniele Fontanari, W. Leo Meerts, et al.. High resolution study of the ν2 and ν5 rovibrational fundamental bands of thionyl chloride: Interplay of an evolutionary algorithm and a line-by-line analysis. Journal of Chemical Physics, 2017, 147 (5), pp.054303. ⟨10.1063/1.4996655⟩. ⟨hal-04218554⟩
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