Shifting and broadening parameters of the water vapor 183-GHz line (313–220) by H2O, O2, N2, CO2, H2, He, Ne, Ar, and Kr at room temperature

Golubiatnikov, G. Yu.

doi:10.1016/j.jms.2004.10.011

Cited by 62 publications

(15 citation statements)

References 13 publications

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“…Thus, no conclusion could be reached about vibrational dependence using experimental data of CO 2 -broadened water. We note that only one pressure shift has been measured for the rotational band; Golubiatnikov et al [13] reported a value of À0.0237 cm À1 atm À1 for the (3 1 3 ‹ 2 2 0 ) transition which is in excellent agreement with the measured value in m 2 of À0.0238 (47) cm À1 atm À1 . Our measured shift value for (2 2 0 ‹ 3 1 3 ) is 0.0258 (97) cm À1 atm À1 .…”

Section: The Vibrational Dependence Of Broadening Coefficientssupporting

confidence: 88%

“…Unfortunately, the present CO 2 -broadened water measurements of strong, allowed, perpendicular transitions in m 2 were in common with only one rotational transition from Golubiatnikov et al [13], 1.3 lm [17]. The number is very limited because one study reported weak transitions in the wings of bands [15,18] while the other two investigations measured small spectral intervals with diode laser spectrometers [16,17].…”

Section: The Vibrational Dependence Of Broadening Coefficientscontrasting

confidence: 50%

“…The newer studies [13][14][15][16][17] measured widths to only 80, by reporting one perpendicular type transition in the rotational region [13] and four m 2 lines at 1539 and 1652 cm À1 [14], and mostly parallel band transitions at 3963-4181 cm À1 [15], 7117-7186 cm À1 [16] and 7226-7233 cm À1 [17]; the pressure shifts were measured for 34 transitions [13,14,18].…”

Section: Introductionmentioning

confidence: 99%

“…HWHM) are in units of cm À1 atm À1 at 300 K. The other measurements are from: Golubiatnikov et al[13]; Gamache et al[15]; Langolis et al[17] and Nagali et al[16].…”

mentioning

confidence: 99%

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CO2-broadened water in the pure rotation and ν2 fundamental regions

Brown¹,

Humphrey²,

Gamache³

2007

Journal of Molecular Spectroscopy

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Section: The Vibrational Dependence Of Broadening Coefficientssupporting

confidence: 88%

Section: The Vibrational Dependence Of Broadening Coefficientscontrasting

confidence: 50%

Section: Introductionmentioning

confidence: 99%

“…HWHM) are in units of cm À1 atm À1 at 300 K. The other measurements are from: Golubiatnikov et al[13]; Gamache et al[15]; Langolis et al[17] and Nagali et al[16].…”

mentioning

confidence: 99%

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CO2-broadened water in the pure rotation and ν2 fundamental regions

Brown¹,

Humphrey²,

Gamache³

2007

Journal of Molecular Spectroscopy

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“…Since 2003, the model includes the pressure line shift mechanism investigated by Tretyakov et al (2003) andGolubiatnikov et al (2005). For the 22.23 and 183.31 GHz absorption lines, the only two relevant for the frequency range under study here, the main modifications are the adoption of the air-broadened line widths determined in Payne et al (2008) using groundbased radiometric measurements, leading to -5.1% and +4.5% line-width change, respectively.…”

Section: A1 Water Vapor 830mentioning

confidence: 99%

Uncertainty of atmospheric microwave absorption model: impact on ground-based radiometer simulations and retrievals

Cimini¹,

Rosenkranz²,

Tretyakov³

et al. 2018

Preprint

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Abstract. This paper presents a general approach to quantify the absorption model uncertainty due to uncertainty in underlying spectroscopic parameters. The approach is applied to radiative transfer calculations in the 20-60 GHz range, which is commonly exploited for atmospheric sounding by microwave radiometer (MWR). The approach however is not limited to any frequency range, observing geometry, or particular instrument. In the considered frequency range, relevant uncertainties come from water vapor and oxygen spectroscopic parameters. The uncertainty of the following parameters is 15 found to dominate: (for water vapor) self and foreign continuum absorption coefficients, line broadening by dry air, line intensity, temperature-dependence exponent for foreign continuum absorption, and line shift-to-broadening ratio; (for oxygen) line intensity, line broadening by dry air, line mixing, temperature-dependence exponent for broadening, zerofrequency line broadening in air, temperature-dependence coefficient for line mixing. The full uncertainty covariance matrix is then computed for the set of spectroscopic parameters with significant impact. The impact of the spectroscopic parameter 20 uncertainty covariance matrix on simulated downwelling microwave brightness temperatures (T B ) in the 20-60 GHz range is calculated for six atmospheric climatology conditions. The uncertainty contribution to simulated T B ranges from 0.30 K (sub-Arctic winter) to 0.92 K (tropical) at 22.2 GHz, and from 2.73 K (tropical) to 3.31 K (sub-Arctic winter) at 52.28 GHz.The uncertainty contribution is nearly zero at 55-60 GHz frequencies. Finally, the impact of spectroscopic parameter uncertainty on ground-based MWR retrievals of temperature and humidity profiles is discussed. 25

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