摘要
The absorption spectrum of carbon dioxide at 2.004 μm has been recorded at sample temperatures between 218.0 K and room temperature, by using a high-resolution tunable diode laser absorption spectrometer(TDLAS) combined with a temperature controlled cryogenically cooled absorption cell. The self-, N~(2-), and air-broadening coefficients for nine transitions of ~(12)C~(16)O_2 belonging to the 20012←00001 band in the 4987 cm~(-1)–4998 cm~(-1) region have been measured at different temperatures. From these measurements, we have further determined the temperature dependence exponents of the pressure-broadening coefficients. To the best of our knowledge, the temperature dependence parameters of the collisional broadening coefficients are reported experimentally for the first time for these nine transitions. The measured halfwidth coefficients and the air temperature dependence exponents of these transitions are compared with the available values reported in the literature and HITRAN 2012 database. Agreements and discrepancies are also discussed.
The absorption spectrum of carbon dioxide at 2.004 μm has been recorded at sample temperatures between 218.0 K and room temperature, by using a high-resolution tunable diode laser absorption spectrometer(TDLAS) combined with a temperature controlled cryogenically cooled absorption cell. The self-, N~(2-), and air-broadening coefficients for nine transitions of ~(12)C~(16)O_2 belonging to the 20012←00001 band in the 4987 cm~(-1)–4998 cm~(-1) region have been measured at different temperatures. From these measurements, we have further determined the temperature dependence exponents of the pressure-broadening coefficients. To the best of our knowledge, the temperature dependence parameters of the collisional broadening coefficients are reported experimentally for the first time for these nine transitions. The measured halfwidth coefficients and the air temperature dependence exponents of these transitions are compared with the available values reported in the literature and HITRAN 2012 database. Agreements and discrepancies are also discussed.
引文
[1]IPCC.Climate Change 2007:the physical science basis.Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change;2007
[2]Rothman L S,Jacquemart D,Barbe A,et al.2005 J.Quantum Spectrosc.Radiat.Transfer 96 139
[3]Durry G,Amarouche N,Z′eninari V,Parvitte B,Lebarbu T and Ovarlez J 2004 Spectrochim.Acta A 60 3371
[4]Pouchet I,Z′eninari V,Parvitte B and Durry G 2004 J.Quantum Spectrosc.Radiat.Transfer 83 619
[5]Dufour E,Br′eon F M and Peylin P 2004 J.Geophys.Res.109 D09304
[6]Tolton B T and Plouffe D 2001 Appl.Opt.40 1305
[7]Kuang Z,Margolis J,Toon G,Crisp D and Yung Y 2002 Geophys.Res.Lett.29 1716
[8]Inoue G,Yokota T,Oguma H,Higurashi A,Morino I and Aoki T 2004AGU 2004 fall meeting,December 13–17,2004 San Francisco,California,USA
[9]Valero F P J,Su′arez C B and Boese R W 1979 J.Quantum Spectrosc.Radiat.Transfer 22 93
[10]Su′arez C B and Valero F P J 1990 J.Quantum Spectrosc.Radiat.Transfer 43 327
[11]Joly L,Marnas F,Gibert F,Bruneau D,Grouiez B,Flamant P H,Durry G,Dumelie N,Parvitte B and Z′eninari V 2009 Appl.Opt.48 5475
[12]Li J S,Durry G,Cousin J,Joly L,Parvitte B,Flamant P H,Gibert F and Z′eninari V 2011 J.Quantum Spectrosc.Radiat.Transfer 112 1411
[13]Li J S,Durry G,Cousin J,Joly L,Parvitte B and Z′eninari V 2012 Spectrochimica Acta Part.A 85 74
[14]Benner D C,Devi V M,Sung K,Brown L R,Miller C E,Payne V H,Drouin B J,Yu S S,Crawford T J,Mantz A W,Smith M A H and Gamache R R 2016 J.Mol.Spectrosc.326 21
[15]Gamache R R,Lamouroux J,Blot-Lafon V and Lopes E 2014 J.Quantum Spectrosc.Radiat.Transfer 135 30
[16]Rothman L S,Gordon I E,Babikov Y L,et al.2013 J.Quantum Spectrosc.Radiat.Transfer 130 4
[17]Ma H L,Liu Q,Cao Z S,Chen W D,Vicet A,Huang Y B,Zhu W Y,Gao X M and Rao R Z 2016 J.Quantum Spectrosc.Radiat.Transfer171 50
[18]Ma H L,Sun M G,Liu A W,Vicet A,Chen W D,Cao Z S,Wang G S,Liu Q,Gao X M and Rao R Z 2015 Acta Phys.Sin.64 153301(in Chinese)
[19]R′egalia-Jarlot L,Z′eninari V,Parvittea B,Grossela A,Thomas X,Heydena P.von der and Durry G 2006 J.Quantum Spectrosc.Radiat.Transfer 101 325
[20]Corsia C,D’Amato F,De Rosa M D and Modugno G 1999 Eur.Phys.J.D 6 327
[21]Toth R A,Brown L R,Miller C E,Devi V M and Benner D C 2006 J.Mol.Spectrosc.239 243
[22]Toth R A,Brown L R,Miller C E,Devi V M and Benner D C 2007 J.Mol.Spectrosc.242 131