Measurements and calculations of CO2 room-temperature high-pressure spectra in the 4.3 μm region

J. M. Hartmann

doi:10.1063/1.455894

Measurements and calculations of CO₂ room-temperature high-pressure spectra in the 4.3 μm region

J. M. Hartmann

Ecole Centrale Paris

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Abstract

Measurements of the absorption by pure CO₂ in the 4.3 μm region are presented. They refer to the temperature of 291 K and densities in the 1-80 amagat range. Calculations based on the addition of Lorentzian contributions strongly overestimate the absorption since they do not account for line overlapping. The energy corrected sudden approximation (ECSA) is used to model line mixing within the impact approximation. The scaling parameters of this model are deduced from line-broadening data. This calculation strongly underestimates the absorption in the spectral region near the edges of the vibrational band, whereas it overestimates the absorption in the far wings of the lines. This is attributed to the impact approximation which does not account for the frequency dependence of the relaxation operator. This dependence is roughly determined from our results; it is in good qualitative agreement with the few corresponding available results.

Original language	English
Pages (from-to)	2944-2950
Number of pages	7
Journal	Journal of Chemical Physics
Volume	90
Issue number	6
DOIs	https://doi.org/10.1063/1.455894
Publication status	Published - 1 Jan 1989
Externally published	Yes

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10.1063/1.455894

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title = "Measurements and calculations of CO2 room-temperature high-pressure spectra in the 4.3 μm region",

abstract = "Measurements of the absorption by pure CO2 in the 4.3 μm region are presented. They refer to the temperature of 291 K and densities in the 1-80 amagat range. Calculations based on the addition of Lorentzian contributions strongly overestimate the absorption since they do not account for line overlapping. The energy corrected sudden approximation (ECSA) is used to model line mixing within the impact approximation. The scaling parameters of this model are deduced from line-broadening data. This calculation strongly underestimates the absorption in the spectral region near the edges of the vibrational band, whereas it overestimates the absorption in the far wings of the lines. This is attributed to the impact approximation which does not account for the frequency dependence of the relaxation operator. This dependence is roughly determined from our results; it is in good qualitative agreement with the few corresponding available results.",

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year = "1989",

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AU - Hartmann, J. M.

PY - 1989/1/1

Y1 - 1989/1/1

N2 - Measurements of the absorption by pure CO2 in the 4.3 μm region are presented. They refer to the temperature of 291 K and densities in the 1-80 amagat range. Calculations based on the addition of Lorentzian contributions strongly overestimate the absorption since they do not account for line overlapping. The energy corrected sudden approximation (ECSA) is used to model line mixing within the impact approximation. The scaling parameters of this model are deduced from line-broadening data. This calculation strongly underestimates the absorption in the spectral region near the edges of the vibrational band, whereas it overestimates the absorption in the far wings of the lines. This is attributed to the impact approximation which does not account for the frequency dependence of the relaxation operator. This dependence is roughly determined from our results; it is in good qualitative agreement with the few corresponding available results.

AB - Measurements of the absorption by pure CO2 in the 4.3 μm region are presented. They refer to the temperature of 291 K and densities in the 1-80 amagat range. Calculations based on the addition of Lorentzian contributions strongly overestimate the absorption since they do not account for line overlapping. The energy corrected sudden approximation (ECSA) is used to model line mixing within the impact approximation. The scaling parameters of this model are deduced from line-broadening data. This calculation strongly underestimates the absorption in the spectral region near the edges of the vibrational band, whereas it overestimates the absorption in the far wings of the lines. This is attributed to the impact approximation which does not account for the frequency dependence of the relaxation operator. This dependence is roughly determined from our results; it is in good qualitative agreement with the few corresponding available results.

U2 - 10.1063/1.455894

DO - 10.1063/1.455894

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SN - 0021-9606

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EP - 2950

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

IS - 6

ER -

Measurements and calculations of CO2 room-temperature high-pressure spectra in the 4.3 μm region

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Measurements and calculations of CO₂ room-temperature high-pressure spectra in the 4.3 μm region