Temperature dependence of N2- and O2-broadening coefficients in the ν4 band of 13CH4

Research output: Contribution to journalArticle

Abstract

Using a tunable diode laser spectrometer and an home made cooling cell, the N- and O-broadening coefficients of CH were measured at room and low temperatures in the ν band near 1300cm . Fifteen transitions were studied for the CH diluted in the nitrogen at room temperature and 11 of them were also studied at 273.0 K, 248.0 K, 223.0 K, 198.0 K and 173.0 K. Twenty-four lines were considered at room temperature for the gas-mixture CH + O and 10 of them were analyzed at low temperatures (273.0 K, 223.0 K and 173.0 K). The measurements at low temperatures allowed the determination of the temperature dependence parameter of the collisional broadening coefficients. The line parameters were obtained by fitting, to the experimental profile, the Voigt lineshape and the Rautian and Sobel'man model taking into account the collisional narrowing. In addition, air-broadening coefficients were calculated in the ν band of CH for 10 transitions studied jointly for the mixtures CH + N and CH + O. We compare, in this paper, the collisional broadening coefficients determined at room temperature with previous studies on the ν and ν bands of CH. The results are also confronted with N- and O-broadening coefficients determined in the ν band of CH. The air-broadening coefficients, based on a simple atmospheric composition, are compared with HITRAN values.
Original languageEnglish
Pages (from-to)46-55
Number of pages10
JournalJournal of molecular spectroscopy
Volume259
Issue number1
DOIs
Publication statusPublished - 1 Jan 2010

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methylidyne
temperature dependence
coefficients
Temperature
room temperature
Atmospheric composition
atmospheric composition
laser spectrometers
Air
air
Gas mixtures
Semiconductor lasers
Spectrometers
Nitrogen
gas mixtures
Cooling
diodes
cooling
nitrogen
profiles

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title = "Temperature dependence of N2- and O2-broadening coefficients in the ν4 band of 13CH4",
abstract = "Using a tunable diode laser spectrometer and an home made cooling cell, the N- and O-broadening coefficients of CH were measured at room and low temperatures in the ν band near 1300cm . Fifteen transitions were studied for the CH diluted in the nitrogen at room temperature and 11 of them were also studied at 273.0 K, 248.0 K, 223.0 K, 198.0 K and 173.0 K. Twenty-four lines were considered at room temperature for the gas-mixture CH + O and 10 of them were analyzed at low temperatures (273.0 K, 223.0 K and 173.0 K). The measurements at low temperatures allowed the determination of the temperature dependence parameter of the collisional broadening coefficients. The line parameters were obtained by fitting, to the experimental profile, the Voigt lineshape and the Rautian and Sobel'man model taking into account the collisional narrowing. In addition, air-broadening coefficients were calculated in the ν band of CH for 10 transitions studied jointly for the mixtures CH + N and CH + O. We compare, in this paper, the collisional broadening coefficients determined at room temperature with previous studies on the ν and ν bands of CH. The results are also confronted with N- and O-broadening coefficients determined in the ν band of CH. The air-broadening coefficients, based on a simple atmospheric composition, are compared with HITRAN values.",
author = "B. Martin and M. Lep{\`e}re",
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language = "English",
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Temperature dependence of N2- and O2-broadening coefficients in the ν4 band of 13CH4. / Martin, B.; Lepère, M.

In: Journal of molecular spectroscopy, Vol. 259, No. 1, 01.01.2010, p. 46-55.

Research output: Contribution to journalArticle

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AB - Using a tunable diode laser spectrometer and an home made cooling cell, the N- and O-broadening coefficients of CH were measured at room and low temperatures in the ν band near 1300cm . Fifteen transitions were studied for the CH diluted in the nitrogen at room temperature and 11 of them were also studied at 273.0 K, 248.0 K, 223.0 K, 198.0 K and 173.0 K. Twenty-four lines were considered at room temperature for the gas-mixture CH + O and 10 of them were analyzed at low temperatures (273.0 K, 223.0 K and 173.0 K). The measurements at low temperatures allowed the determination of the temperature dependence parameter of the collisional broadening coefficients. The line parameters were obtained by fitting, to the experimental profile, the Voigt lineshape and the Rautian and Sobel'man model taking into account the collisional narrowing. In addition, air-broadening coefficients were calculated in the ν band of CH for 10 transitions studied jointly for the mixtures CH + N and CH + O. We compare, in this paper, the collisional broadening coefficients determined at room temperature with previous studies on the ν and ν bands of CH. The results are also confronted with N- and O-broadening coefficients determined in the ν band of CH. The air-broadening coefficients, based on a simple atmospheric composition, are compared with HITRAN values.

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