References for GEISA-2015 sub-database of infrared absorption cross-sections

1/ Ballard J, Knight RJ, Newnham DA, Vander Auwera J, Herman M, Di Lonardo G, Masciarelli G, Nicolaisen FM, Beukes JA, Christensen LK, McPheat R, Duxbury G, Freckleton R, Shine KP. 2000 An intercomparison of laboratory measurements of absorption cross-sections and integrated absorption intensities for HCHC-22. J.Q.S.R.T., 66, 109-28.

2/ Clerbaux C, Colin R, Simon P.C, Granier C. 1993. Infrared Cross Sections and Global Warming Potentials of 10 Alternative Hydrohalocarbons. J. Geophys. Res., 98, 10491‑97.

3/ Christidis N, Hurley, M.D, Pinnock S, Shine K.P and Wallington T.J. 1997. Radiative forcing of climate change by CFC-11 and possible CFC replacements. J. Geophys. Res., 102, 19597-609.

4/ Di Lonardo G, Masciarelli G. 2000. Infrared absorption cross-sections and integrated absorption intensities of HFC-125 and HFC-143a. J.Q.S.R.T., 66, 129-42.

5/ Heathfield AE, Anastasi A, McCulloch A and Nicolaisen FM. 1998. Integrated Infrared Absorption Coefficients of several partially fluorinated ether compounds: CF3OCF2H, CF2HOCF2H, CH3OCF2CF2H, CH3OCF2CFClH, CH3CH2OCF2CF2H, CF3CH2OCF2CF2H and CH2=CHCH2OCF2CF2H. J.Q.S.R.T., 32, 2825-33.

6/ Highwood E.J, Shine K.P, Hurley M.D, Wallington T.J. 1999. Estimation of direct radiative transfer forcing due to non-methane hydrocarbons. Atmos. Environ. 33, 159-67.

7/ Hurley M.D. 2003. Private communication.

8/ Li Z and Varanasi P. 1994. Measurement of the absorption cross-sections of CFC-11 at conditions representing various model atmospheres. J.Q.S.R.T., 52, 137-44.

9/ M.S.F./R.A.L: Molecular Spectroscopy Facility/RutherfordAppleton Laboratory; http://www.stfc.ac.uk/about-us/where-we-work/rutherford-appleton-laboratory/

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11/ Nemtchinov V, Varanasi P. 2003a. Thermal infrared absorption cross-sections of CF₄ for atmospheric applications. J.Q.S.R.T., 82, 461-71.

12/ Nemtchinov V, Varanasi P. 2003b. Thermal Infrared Absorption Cross-sections of CCl₄ needed for Atmospheric Remote-Sensing. J.Q.S.R.T., 82, 473-81.

13/ Nemtchinov V, Varanasi P. 2004. Absorption cross-sections of HFC-134a in the spectral region between 7 and 12 μm, J.Q.S.R.T., 84, 285-94.

14/ Pinnock S, Hurley M.D, Shine K.P, Wallington T.J and Smyth T.J. 1995. Radiative forcing of climat by hydrochlorofluorocarbons and hydrofluorocarbons. J. Geophys. Res., 100, 23227-38.

15/ Smith KP. Private communication, 2003.

16/ Vander Auwera J. 2000. Infrared absorption cross-sections for two substituted ethanes: 1,1-difluoroethane (HFC-152a) and 1,2-dichloroethane. J.Q.S.R.T., 66, 143-51.

17/ Vander Auwera J. 2003. Private communication. Ballard J, Knight R.J, Newnham D.A., Vander Auwera J, Herman M, Di LOnardo G, Masciarelli G, Nicolaisen F.M, Beukes J.A, Christensen L.K, McPheat R, Duxbury G, Freckleton R, Shine K.P. 2000. An intercomparison of laboratory measurements of absorption cross-sections and integrated absorption intensities for HCHC-22. J.Q.S.R.T., 66, 109-28.

18/ Varanasi P, Nemtchinov V. 1994. Thermal infrared absorption coefficients of CFC‑12 at atmospheric conditions. J.Q.S.R.T., 51, 679‑87.

19/ Varanasi P. 2000. Private communication.

20/ Varanasi P. 2001. Private communication.

21/ Varanasi, P., Nemtchinov, V., Li, Z., Cherukuri, A. 1994. Spectral Absorption-coefficient Data on HCFC‑22 and SF₆ for Remote Sensing Applications. J.Q.S.R.T., 52, 323-32.

22/ Wagner G, Birk M. 2003. Private Communication. New infrared spectroscopic database for chlorine nitrate. J.Q.S.R.T., 82, 443-60.

23/ Zou Q, Sun C, Nemtchinov V, Varanasi P. 2004. Thermal infrared cross-sections of C₂F₆ at atmospheric temperatures. J.Q.S.R.T., 83, 215-21.

24/ GEISA 1997.

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26/ Waterfall A. Measurement of organic compounds in the upper troposphere. 2003. Ph. D. Thesis, University of Oxford.

27/ Rinsland CP, Devi VM, Blake TA, Sams RL, Sharpe S, Chiou LS. 2008. Quantitative measurement of integrated band intensities of benzene vapor in the mid-infrared at 278, 298, and 323 K. J.Q.S.R.T., 109, 2511-22.

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31/ Allen G, Remedios JJ, Smith KM. 2005. Low temperature mid-infrared cross-sections for peroxyacetyl nitrate (PAN) vapour. Atmos. Chem. Phys., 5, 3153–8.

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62/ S.M. Ryan, C.J. Nielsen, Global Warming Potential of Inhaled Anesthetics: Application to Clinical Use, Anesth. Analg., 111 (2010) 92-98.

63/ B. D'Anna, S.R. Sellevag, K. Wirtz, C.J. Nielsen, Photolysis study of perfluoro-2-methyl-3-pentanone under natural sunlight conditions, Environ. Sci. Technol., 39 (2005) 8708-8711.

64/ N. Oyaro, S.R. Sellevag, C.J. Nielsen, Study of the OH and Cl-initiated oxidation, IR absorption cross-section, radiative forcing, and global warming potential of four C-4-hydrofluoroethers, Environ. Sci. Technol., 38 (2004) 5567-5576.

65/ N. Oyaro, S.R. Sellevag, C.J. Nielsen, Atmospheric chemistry of hydrofluoroethers: Reaction of a series of hydrofluoro ethers with OH radicals and Cl atoms, atmospheric lifetimes, and global warming potentials, J. Phys. Chem. A., 109 (2005) 337-346.

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67/ S.R. Sellevåg, B. D'Anna, C.J. Nielsen, Infrared Absorption Cross-Sections and Estimated Global Warming Potentials of CF₃CH₂CH₂OH, CHF₂CF₂CH₂OH, CF₃CF₂CH₂OH, CF₃CHFCF₂CH₂OH, and CF₃CF₂CF₂CH₂OH, Asian Chemistry Letters. (2007) 33-40.

68/ E. Jiménez, M. Antinolo, B. Ballesteros, E. Martinez, J. Albaladejo, Atmospheric Lifetimes and Global Warming Potentials of CF₃CH₂CH₂OH and CF₃(CH₂)₂CH₂OH, Phys. Chem. Chem. Phys., 11 (2010) 4079-4087.

69/ M. Antiñolo, S. González, B. Ballesteros, J. Albaladejo, E. Jiménez, Laboratory Studies of CHF₂CF₂CH ₂OH and CF₃CF₂CH₂OH: UV and IR Absorption Cross Sections and OH Rate Coefficients between 263 and 358 K, J. Phys. Chem. A., 116 (2012) 6041-6050.

70/ S.R. Sellevåg, T. Kelly, H. Sidebottom, C.J. Nielsen, A study of the IR and UV-Vis absorption cross-sections, photolysis and OH-initiated oxidation of CF₃CHO and CF₃CH ₂CHO, Phys. Chem. Chem. Phys., 6 (2004) 1243-1252.

71/ M. Antiñolo, Fluoroalcohols and Fluoroaldehydes in the Troposphere: Kinetics and Photochemistry in the Gas Phase sutdied by Pulsed Laser Techniques, PhD Thesis, University of Castilla-La Mancha. 2011.

72/ J.J. Harrison, N.D.C Allen, P.F. Bernath, Infrared absorption cross sections for ethane (C₂H₆) in the 3 mm region, J.Q.S.R.T., 111 (2010) 357-363.

73/ J.J. Harrison, P.F. Bernath, Infrared absorption cross sections for propane (C₃H₈) in the 3 mm region, J.Q.S.R.T., 111 (2010) 1282-1288.

74/ J.J. Harrison, N. Humpage, N.D.C. Allen, A.M. Waterfall, P.F. Bernath, J.J. Remedios, Mid-infrared absorption cross sections for acetone (propanone), J.Q.S.R.T., 112 (2011a) 457-464.

75/ J.J. Harrison, N.D.C. Allen, P.F. Bernath, Infrared absorption cross sections for acetone (propanone) in the 3 mm region, J.Q.S.R.T., 112 (2011b) 53-58.

76/ J.J. Harrison, P.F. Bernath, Mid- and long-wave infrared absorption cross sections for acetonitrile, J.Q.S.R.T., 113 (2012) 221-225.

77/ N.D.C. Allen, J.J. Harrison, P.F. Bernath, Acetonitrile (CH₃CN) infrared absorption cross sections in the 3 μm region, J.Q.S.R.T., 112 (2011) 1961-1966.

78/ J.J. Harrison, N.D.C. Allen, P.F. Bernath, Infrared absorption cross sections for methanol, J.Q.S.R.T., 113 (2012) 2189-2196.

79/ J.J. Harrison, Infrared absorption cross sections for trifluoromethane, J.Q.S.R.T., 130 (2013) 359-364.

80/ K.A. Tereszchuk, P.F. Bernath, Infrared absorption cross-sections for acetaldehyde (CH₃CHO) in the 3 µm region, J.Q.S.R.T., 112 (2011) 990-993.

81/ D.M. O’Leary, A.A. Ruth, S. Dixneuf, J. Orphal, R. Varma, The near infrared cavity-enhanced absorption spectrum of methylcyanide, J.Q.S.R.T., 113 (2012) 1138-1147.

82/ E.P. Faragó, B. Viskolcz, C. Schoemaecker, C. Fittschen, Measurement of the absorption spectrum and of absolute absorption cross-sections of CH₃O₂ Radicals and CH₃I in the near IR Region, J. Phys. Chem. A, 117 (2013) 12802-12811.

83/ A.A. Ruth, U. Heitmann, E. Heinecke, C. Fittschen, The rotationally-resolved absorption spectrum of formaldehyde from 6550 to 7050 cm^–1, Z. Phys. Chem., 229 (2015) 1609-1624.

84/ J. Thiebaud, S. Crunaire, C. Fittschen, Measurements of line strengths in the 2n₁ band of the HO₂ radical using laser photolysis/continuous wave cavity ring-down spectroscopy (cw-CRDS), J. Phys. Chem. A, 111 (2007) 6959-6966.

85/ N. Ibrahim, J. Thiebaud, J. Orphal, C. Fittschen, Air-broadening coefficients of the HO₂ radical in the 2n₁ band measured using cw-CRDS, J. Mol. Spectrosc., 242 (2007) 64-69.

86/ C. Jain, P. Morajkar, C. Schoemaecker, B. Viskolcz, C. Fittschen, Measurement of absolute absorption cross-sections for nitrous acid (HONO) in the near-infrared region by the continuous wave cavity ring-down spectroscopy (cw-CRDS) technique coupled to laser photolysis, J. Phys. Chem. A, 115 (2011) 10720-10728.

87/ D.M. O'Leary, J. Orphal, A.A. Ruth, U. Heitmann, P. Chelin, C.E. Fellows, The cavity-enhanced absorption spectrum of NH₃ in the near-infrared region between 6850 and 7000 cm^-1, J.Q.S.R.T., 109 (2008) 1004-1015.