References for GEISA-11 sub-database on Ultraviolet-Visible cross-sections

32/ Bogumil K,Orphal J, Homann T, Voigt S, Spietz S, Fleischmann O.C, Vogel A, Hartmann M, Bovensmann H, Frerick and Burrows J.P. 2003. "Measurements of molecular absorption spectra with the SCIAMACHY Pre-Flight Model: instrument characterization and reference data for atmospheric remote-sensing in the 230 - 2380 nm region".Journal of Photochemistry and Photobiology A: Chemistry, 157, 167-184.

33/ Burrows J.P, Dehn A, Deters B, Himmelmann S, Richter A, Voigt S and Orphal J. 1998. "Atmospheric remote-sensing reference data from GOME 1 Temperature-dependent absorption cross-sections of NO2 in the 231 - 794 nm range". J.Q.S.R.T., 60, 1025 – 1031.

34/ Burrows J.P, Richter A, Dehn A, Deters B, Himmelmann S, Voigt S and Orphal J. 1999. "Atmospheric remote-sensing reference data from GOME 2.Temperature-dependent absorption cross-sections of O3 in the 231 - 794 nm range". J.Q.S.R.T., 61, 509-96517.

35/ Fleischmann O.C, Burrows J.C, Hartmann M and Orphal J. 2004. "New ultraviolet absorption cross-sections of BrO at atmospheric temperatures measured by time-windowing Fourier-transform spectroscopy".Journal of Photochemistry and Photobiology A: Chemistry, 168, 117-132.

36/ Fleischmann O.C, Meyer-Arnek J, Burrows J.P and Orphal J. 2005. “The visible absorption spectrum of OBrO investigated by Fourier transform spectroscopy”. Journal of Physical Chemistry A, 109, 5093-5103.

37/ Kromminga H, Orphal J, Spietz P, Voigt S and Burrows J.P. 2003. "The temperature dependence (213–293 K) of the absorption cross-sections of OClO in the 340–450 nm region measured by Fourier-transform spectroscopy".Journal of Photochemistry and Photobiology A: Chemistry, 157, 149-160.

38/ M.S.F./R.A.L: Molecular Spectroscopy Facility/RutherfordAppleton Laboratory; http://www.msf.rl.ac.uk/

39/ Vandaele A.C, Hermans C, Simon P.C, Van Roozendael M, Guilmot J.M, Carleer M and Colin R. 1996. "Fourier Transform Measurement of NO2 Absorption Cross-sections in the Visible Range at Room Temperature”. J. Atm. Chem., 25, 289-305.

40/ Vandaele A.C, Hermans C, Simon P.C, Carleer M, Colin R, Fally S, Mérienne M.F, Jenouvrier A and Coquart B.1998. Measurements of the NO ₂ absorption cross-section from 42000 cm^-1 to 10000 cm^-1 (238-1000nm) at 22K and 204 K. J.Q.S.R.T., 59, 171-184.

41/ Voigt S, Orphal J, Bogumil K and Burrows J.P. 2001. "The temperature dependence (203-293 K) of the absorption cross-sections of O3 in the 230 - 850 nm region measured by Fourier-transform spectroscopy".Journal of Photochemistry and Photobiology A: Chemistry, 143, 1-9.

42/ BIRA/IASB: Belgian Institute for Space Aeronomy; http://spectrolab.aeronomie.be/index.htm

43/ Fally S, Carleer M, Vandaele A.C. 2009. UV Fourier transform absorption cross sections of benzene, toluene, meta-, ortho-, and para-xylene. J.Q.S.R.T., 110, 766-782.

44/ Wahner A, Ravishankara A.R, Sander S.P, Friedl R.R. 1988. Absorption cross-section of BrO between 312 and 385 nm at 298 and 223 K. Chem. Phys. Lett., 152, 507-12.

45/ Volkamer R, Spietz P, Burrows J.P and Platt U. 2005. High-resolution absorption cross-section of glyoxal in the UV/VIS and IR spectral ranges. J. Photochem. Photobiol. A: Chem., 175, 35-46.

46/ Vandaele A.C, De Mazière M, Hermans C, Carleer M, Clerbaux C, Coheur P et al. 2003. UV-visible and near-IR spectroscopy of atmospheric species. Recent Res. Devel. Chem. Phys., 4, 325-44.

47/ Spietz P, Gómez Martín J.C, Burrows J.P.2005. Spectroscopic studies of the I₂/O₃ photochemistry, Part 2: Improved Spectra of Iodine Oxides and Analysis of the IO Absorption Spectrum. J. Photochem. Photobiol. A, 176, 50-67.

48/ Voigt S, Orphal J, Burrows J.P. 2002. The temperature and pressure dependence of the absorption cross-sections of NO₂ in the 250–800 nm region measured by Fourier-transform spectroscopy. J. Photochem. Photobiol. A, 149, 1-7.

49/ Orphal J. 2003. A critical review of the absorption cross-sections of O₃ and NO₂ in the ultraviolet and visible. J. Photochem. Photobiol., 157(A), 185-209.

Orphal J, Fellows C.E, Flaud P.M. 2003. The visible absorption spectrum of NO₃ measured by high-resolution Fourier transform spectroscopy. J. Geophys. res., 108(D3), 4077.

50/ Vandaele A.C, Hermans C, Fally S, Carleer M, Colin R, Mérienne M.F, et al. 2002. High-resolution Fourier transform measurement of the NO ₂ visible and near-infrared absorption cross sections: Temperature and pressure effects. J. Geophys. Res., 107(D), 43-8.

51/ Newnham D.A, Ballard J. 1998. Visible absorption cross sections and integrated absorption intensities of molecular oxygen (O₂ and O ₄). J. Geophys. Res., 103(D), 28801-816.

52/ Bass A.M, Paur R.J. 1985. The ultraviolet cross-sections of ozone, Part I, The measurements, in: Zerefos CS, Ghazi A, Reidel D (Eds.), Atmospheric Ozone, Norwell, Mass, pp. 606–10; Paur R.J, Bass A.M. 1985 The ultraviolet cross-sections of ozone, Part II, Result and temperature dependence, in: C.S. Zerefos, A. Ghazi, D. Reidel (Eds.), Atmospheric Ozone, Norwell, Mass. pp. 611–16.

53/ Brion J, Daumont D, Malicet J. 1984. New measurements of the absolute absorption cross-sections of ozone at 294 and 223 K in the 310-350 nm spectral range. J Phys (Paris) Lett, 45, L57–L60. Brion J, Chakir A, Daumont D, Malicet J, Parisse C. 1993. High-resolution laboratory absorption cross section of O₃. Temperature effect. Chem. Phys. Lett., 213, 610–12. Daumont D, Brion J, Charbonnier J, Malicet J.1992. Ozone UV spectroscopy I: absorption cross-sections at room temperature. J. Atmos. Chem., 15, 145–55. Brion J, Chakir A, Charbonnier J, Daumont D, Parisse C, Malicet J. 1998. Absorption spectra measurements for the ozone molecule in the 350–830 nm region. J. Atmos. Chem., 30, 291–99.

54/ Kromminga H, Orphal J, Spietz P, Voigt S, Burrows J.P. 2003. New measurements of OClO absorption cross-sections in the 325–435 nm region and their temperature dependence between 213 and 293 K. J. Photochem. Photobiol., 157(A), 149-60.

55/ Gómez-Martín J.C, Spietz P, Burrows J.P. 2005. Spectroscopic studies of the I₂/O₃ photochemistry: part 1: determination of the absolute absorption cross-sections of iodine oxides of atmospheric relevance. J. Photochem. Photobiol. A, 176, 15-38.

56/ Hermans C, Vandaele A.C, Fally S. 2009. Fourier Transform measurements of SO₂ absorption cross sections: I. Temperature dependence in the 24 000-29 000 cm^-1 (345-420 nm) region. J.Q.S.R.T., 110, 756-65.

57/ Vandaele A.C, Hermans C, Fally S. 2009. Fourier Transform measurements of SO₂ absorption cross sections: II. Temperature dependence in the 29 000-44 000 cm^-1 (227-345 nm) region. J.Q.S.R.T., 110, 2115-26.

58/ Greenblatt GD, Orlando JJ, Burkholder JB, Ravishankara AR. 1990. Absorption measurements of oxygen between 330 and 1140 nm. J. Geophys. Res., 95:18577–82.