A. Vitcu scite author profile

We calculate the spectral line shape of an isolated line from first principles, assuming that the translational motion is not statistically correlated with the evolution of the optical coherence, i.e., with the broadening. We use the known, realistic potentials for the influence of collisions on the translational motion and on the internal motion. We show that the calculated profiles do not agree, particularly at low pressures, with very precise experimental profiles of the P(2) line of CO in a bath of Ar. We establish that the source of the disagreement lies in the assumption of uncorrelated effects of collisions on the translational motion and the optical coherence associated with the internal degrees of freedom.

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Dicke-narrowed spectral line shapes of CO in Ar: Experimental results and a revised interpretation

Wehr

Ciuryło²,

Vitcu

et al. 2006

Journal of Molecular Spectroscopy

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Erratum to “Dicke-narrowed spectral line shapes of CO in Ar: Experimental results and a revised interpretation” [J. Mol. Spectrosc. 235 (2006) 54–68]

Wehr

Ciuryło²,

Vitcu

et al. 2006

Journal of Molecular Spectroscopy

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Broadening and line mixing in the 20 0←01 10, 11 10←00 and 12 20←01 1 Q branches of carbon dioxide: Experimental results and energy-corrected sudden modeling

Predoi‐Cross

May

Vitcu

et al. 2004

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Using both a difference frequency spectrometer and a Fourier transform spectrometer, we have measured transitions in the 12 (2)0<--01 (1)0 band of carbon dioxide at room temperature and pressures up to 19 atm. The low-pressure spectra were analyzed using a variety of standard spectral profiles, all with an asymmetric component to account for weak line mixing. For this band, we have been able to retrieve experimental line strengths and the broadening and weak mixing parameters. In this paper we also compare the suitability of the energy-corrected sudden model to predict mixing in the two previously measured Q branches 20 (0)0<--01 (1)0, the 11 (1)0<--00 (0)0, and the present Q branch of pure CO(2), all at room temperature.

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Collisional line shifting and broadening in the fundamental P-branch of CO in Ar between 214 and 324K

Wehr

Vitcu

Thibault

et al. 2006

Journal of Molecular Spectroscopy

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A. Vitcu

Spectral line shape of theP(2)transition in CO-Ar: Uncorrelatedab initiocalculation

Dicke-narrowed spectral line shapes of CO in Ar: Experimental results and a revised interpretation

Erratum to “Dicke-narrowed spectral line shapes of CO in Ar: Experimental results and a revised interpretation” [J. Mol. Spectrosc. 235 (2006) 54–68]

Broadening and line mixing in the 20 0←01 10, 11 10←00 and 12 20←01 1 Q branches of carbon dioxide: Experimental results and energy-corrected sudden modeling

Collisional line shifting and broadening in the fundamental P-branch of CO in Ar between 214 and 324K

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