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Article Dans Une Revue Journal of Quantitative Spectroscopy and Radiative Transfer Année : 2024

Collisional broadening of molecular rovibronic lines

Résumé

To meet burning needs of high-resolution pressure-induced line-shape parameters in the UV/visible regions for hot-temperature industrial and atmospheric applications as well as current and future space missions, phase-shift theory is examined in its historical context, tested and revisited using accurate numerical potentials and advanced trajectory models. First, a general analysis for arbitrary molecular systems is conducted in terms of the dimensionless parameter determined by the differences of the Lennard-Jones parameters in the final and initial electronic absorber’s states. Temperature dependence, use of the power law and influence of Maxwell–Boltzmann averaging over relative velocities are addressed. Then, interaction-potential calculations are attempted for some representative molecular pairs (NO-Ar, NO-N, OH-Ar and OH-N) and the isotropic parts are fitted using the 12-6 Lennard-Jones form to get room and high-temperature line-broadening and line-shift coefficients which are compared to available measurements. It is shown that the phase-shift theory in its standard rectilinear-trajectory formulation provides linewidth and shift estimates accurate within 30%–40%. Attempted improvements using numerical potentials and curved trajectories lead to closer matches with measurements for some cases but also worsen the agreement for others. To ensure better theoretical predictions, introduction of correction terms to the usual phase-shift integral is suggested.
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hal-04614221 , version 1 (19-07-2024)

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Jeanna Buldyreva, Ryan Brady, Sergei Yurchenko, Jonathan Tennyson. Collisional broadening of molecular rovibronic lines. Journal of Quantitative Spectroscopy and Radiative Transfer, 2024, 313, pp.108843. ⟨10.1016/j.jqsrt.2023.108843⟩. ⟨hal-04614221⟩
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