Simple modelling of Q-branch absorption-II. Application to molecules of atmospheric interest (CFC-22 and CH3Cl)

J.-M. Hartmann; J.-P. Bouanich; C. Boulet; G. Blanquet; J. Walrand; N. Lacome

Simple modelling of Q-branch absorption-II. Application to molecules of atmospheric interest (CFC-22 and CH₃Cl)

J.-M. Hartmann, J.-P. Bouanich, C. Boulet, G. Blanquet, J. Walrand, N. Lacome

University of Namur

Research output: Contribution to journal › Article › peer-review

Abstract

The simple approach developed in a previous paper in order to model absorption by Q-branches is applied to the 2v Q-branch of CFC-22 perturbed by N and to the v Q-branch of CHCl perturbed by He. Measurements have been made for these two systems at room temperature for a number of pressures in the 0.05-1.00 atm range. It is shown that our model enables satisfactory prediction of both the pressure and wavenumber dependences of absorption with only six effective parameters; the latter, which depend on temperature only, have been deduced from measured spectra. There values are in satisfactory agreement with results from other sources, except for the average broadening parameter, which is generally underestimated with the model as explained in our previous paper.

Original language	English
Pages (from-to)	723-735
Number of pages	13
Journal	Journal of Quantitative Spectroscopy and Radiative Transfer
Volume	54
Issue number	4
Publication status	Published - 1 Oct 1995

Cite this

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title = "Simple modelling of Q-branch absorption-II. Application to molecules of atmospheric interest (CFC-22 and CH3Cl)",

abstract = "The simple approach developed in a previous paper in order to model absorption by Q-branches is applied to the 2v Q-branch of CFC-22 perturbed by N and to the v Q-branch of CHCl perturbed by He. Measurements have been made for these two systems at room temperature for a number of pressures in the 0.05-1.00 atm range. It is shown that our model enables satisfactory prediction of both the pressure and wavenumber dependences of absorption with only six effective parameters; the latter, which depend on temperature only, have been deduced from measured spectra. There values are in satisfactory agreement with results from other sources, except for the average broadening parameter, which is generally underestimated with the model as explained in our previous paper.",

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Simple modelling of Q-branch absorption-II. Application to molecules of atmospheric interest (CFC-22 and CH₃Cl). / Hartmann, J.-M.; Bouanich, J.-P.; Boulet, C.; Blanquet, G.; Walrand, J.; Lacome, N.

In: Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 54, No. 4, 01.10.1995, p. 723-735.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Simple modelling of Q-branch absorption-II. Application to molecules of atmospheric interest (CFC-22 and CH3Cl)

AU - Hartmann, J.-M.

AU - Bouanich, J.-P.

AU - Boulet, C.

AU - Blanquet, G.

AU - Walrand, J.

AU - Lacome, N.

PY - 1995/10/1

Y1 - 1995/10/1

N2 - The simple approach developed in a previous paper in order to model absorption by Q-branches is applied to the 2v Q-branch of CFC-22 perturbed by N and to the v Q-branch of CHCl perturbed by He. Measurements have been made for these two systems at room temperature for a number of pressures in the 0.05-1.00 atm range. It is shown that our model enables satisfactory prediction of both the pressure and wavenumber dependences of absorption with only six effective parameters; the latter, which depend on temperature only, have been deduced from measured spectra. There values are in satisfactory agreement with results from other sources, except for the average broadening parameter, which is generally underestimated with the model as explained in our previous paper.

AB - The simple approach developed in a previous paper in order to model absorption by Q-branches is applied to the 2v Q-branch of CFC-22 perturbed by N and to the v Q-branch of CHCl perturbed by He. Measurements have been made for these two systems at room temperature for a number of pressures in the 0.05-1.00 atm range. It is shown that our model enables satisfactory prediction of both the pressure and wavenumber dependences of absorption with only six effective parameters; the latter, which depend on temperature only, have been deduced from measured spectra. There values are in satisfactory agreement with results from other sources, except for the average broadening parameter, which is generally underestimated with the model as explained in our previous paper.

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JO - Journal of Quantitative Spectroscopy and Radiative Transfer

JF - Journal of Quantitative Spectroscopy and Radiative Transfer

SN - 0022-4073

IS - 4

ER -

Simple modelling of Q-branch absorption-II. Application to molecules of atmospheric interest (CFC-22 and CH₃Cl)

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