Abstract
During the 1982 and 1983 Balloon Intercomparison Campaigns, the vertical profile of stratospheric NO2 was measured remotely by nine instruments and that of NO by two. Total overhead columns were measured by two more instruments. Between 30 and 35km, where measurements overlapped, agreement between NO profiles was within ±30%, which is better than the accuracies claimed by the experimenters. Between 35 and 40km there was similarly good agreement between NO2 profiles, but below 30km, differences of greater than a factor three were found. In the second Campaign, NO2 values from most instruments agreed within their quoted errors, except that the Oxford radiometer gave much lower values; but the first Campaign and the column measurements show a more uniform spread of results.
These differences below 30km could not be resolved, but new laboratory measurements are planned which should do so.
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Allegrini, M., McKellar, A. R., Simson, P., and Brown, J. M., 1980 ‘Spin-rotation and hyperfine parameters for the (001) excited vibrational state of NO2 from infrared-radiofrequency double resonance.’ J. Chem. Phys, 73, 6086.
Bass, A. M., Ledford, A. E. Jr., and Lanfer, A. H., 1976, ‘Extinction Coefficients of NO2 and N2O4’ J. of Res. NBS, 80A, 143–166.
Boughner, R., Larsen, J. C., and Natarajan, M., 1980, ‘The influence of NO and ClO variations at twilight on the interpretation of solar occultation measurements.’ Geophys. Res. Lett., 7, 231.
Cabana, A., Laurin, M., Pepin, C., and Lafferty, W. J., 1976, ‘High-resolution infrared spectrum of the ν3 and ν2+ν3−ν2 bands of 14N16O2.’ J. Mol. Spectrosc, 59, 13.
Camy-Peyret, C., Flaud, J-M., Perrin, A., and Narahari Rao, K., 1982, ‘Improved line parameters for the ν3 and ν2+ν3−ν2 bands of 14N16O2.’ J. Mol. Spectrosc, 95, 72.
Chaloner, C. P., Drummond, J. R., Houghton, J. T., Jarnot, R. F., and Roscoe, H. K., 1978, ‘Infra-red measurements of stratospheric composition I. The balloon instrument and water vapour measurements.’ Proc. R. Soc. Lond. A., 364, 145.
Coffey, M. T., Mankin, W. G., and Goldman, A., 1981, ‘Simultaneous spectroscopic determination of the latitudinal, seasonal and diurnal variability of stratospheric N2O, NO, NO2 and HNO3.’ J. Geophys. Res 86, 7331.
Crutzen, P. J., 1970, ‘The influence of nitrogen oxides on the atmospheric ozone content.’ Q.J.R. Met. Soc, 96, 320.
Dana, V., and Maillard, J-P., 1978, ‘Analysis of the ν1+ν3 band of 14N16O2.’ J. Mol. Spectrosc, 71, 1–14.
Deutsch, M., and Beniaminy, I., 1983, ‘Inversion of Abel's integral equation for experimental data.’ J. Appl. Phys, 54, 137.
Flaud, J-M., Camy-Peyret, C., Cariolle, D., Laurent, J., and Stokes, G. M., 1983, ‘Daytime variation of atmospheric NO2 from ground-based infrared measurements.’ Geophys. Res. Lett. 10, 1104.
Gille, J. C., and Russel, J. M. III, 1984, ‘The Limb Infrared Monitor of the Stratosphere: Experiment Description, Performance, and Results.’ J. Geophys. Res. 89, 5125–5140.
Goldman, A., Bonamo, F. S., Williams, W. J., and Murcray, D. G., 1975, ‘Absolute integrated intensity and individual line parameters for the 6.3μm band of NO2.’ J. Quant. Spectrosc. Radiat. Transfer, 15, 107.
Guttman, A., 1962, ‘Absolute infrared intensity measurements on NO2 and N2O4.’ J. Quant. Spectrosc. Radiat. Transfer, 2, 1.
Hicks, E., Leroy, B., Rigand, P., Jourdain, J-L., and LeBras, G., 1979, ‘Spectres d'absorption dans le proche ultraviolet et le visible des composes minoritaires atmospheriques NO2 et SO2 entre 200 et 300K.’ J. de Chemic Physique, 76, 693.
Kerr, J. B., Evans, W. F. J., and McConnell, J. C., 1977, ‘The effects of NO2 changes at twilight on tangent ray NO2 measurements.’ Geophys. Res. Lett., 4, 577.
Kerr, J. B., McElroy, C. T., and Evans, W. F. J., 1982, ‘Mid-latitude summertime measurements of stratospheric NO2.’ Can. J. Phys., 60, 196.
Kerridge, B. J., 1984, ‘Abundances and distribution of Nitrogen Oxides in the atmosphere.’ Oxford University D. Phil thesis.
Kondo, Y., Matthews, W. A., Iwata, A., and Takagi, M., 1985, ‘Measurement of nitric oxide from 7 to 32km and its diurnal variation in the stratosphere.’ J. Geophys. Res. 90, 3813.
Louisnard, N., Fergant, G., Girard, A., Gramont, L., Lado-Bordowsky, O., Laurent, J., Le Boiteux, S., and Lemaitre, M. P., 1983, ‘Infrared absorption spectroscopy applied to stratospheric profiles of minor constituents.’ J. Geophys. Res. 88, 5365–5376.
McElroy, C. T., 1984, ‘The determination of stratospheric nitrogen dioxide concentrations from limb brightness measurements.’ Proc. Quadrennial Ozone Symposium, Greece, p222.
Malathy-Devi, V., Fridovitch, B., Jones, G. D., Snyder, G. D. S., and Neuendorffer, A., 1982, ‘Temperature dependence of the widths of N2-broadened lines of the ν3 band of 14N16O2.’ App. Opt, 21, 1537.
Malathy-Devi, V., Fridovitch, B., Jones, G. D., Snyder, G. D. S., Das, P. P., Flaud, J-M., Camy-Peyret, C., and Narahari Rao, K., 1982, ‘Tunable diode laser spectroscopy of NO2 at 6.2μm.’ J. Mol. Spectrosc, 93, 179.
Mill, J. D., 1977, ‘An efficient method for inverting limb radiance profiles with application to the fluorocarbons.’ University of Michigan report 013624.
NASA, 1979, ‘The stratosphere: present and future.’ NASA reference publications 1049.
Ogawa, T., Shibasaki, K. and Susuki, K., 1981, ‘Balloon observation of stratospheric NO2 profile by visible absorption spectroscopy.’ J. Meteorol. Soc. Japan, 59, 410.
Perrin, A., Flaud, J-M., and Camy-Peyret, C., 1982, ‘Calculated line positions and intensities for the ν1+ν3 and ν1+ν2+ν3−ν2 bands of 14N16O2.’ Infrared Physics, 22, 343.
Pine, A. S., Maki, A. G., and Chou, N. Y., 1985, ‘Pressure broadening, lineshapes, and intensity measurements in the 2–0 band of NO.’ J. Mol. Spec, 114, 132–147.
Pollitt, S., Bangham, M. J., Bradsell, R. H., Swann, N. R. W., Moss, D. G., and Woods, P.: to be published.
Pommereau, J-P., 1981, ‘Recherches sur le dioxyde d'azote NO2 dans l'atmosphere de la terre.’ Thesis for Doctorat d'Etat, University of Paris VI.
Pommereau, J-P., 1982, ‘Observations of NO2 diurnal variation in the stratosphere.’ Geophys. Res. Lett, 9, 850.
Ridley, B. A., Bruin, J. T., Schiff, H. I., and McConnell, J. C., 1976, ‘Altitude profile and sunset decay measurements of stratospheric nitric oxide.’ Atmosphere 14, 180.
Ridley, B. A., Son, Halun, Hastie, D. R., Schiff, H. I. McConnell, J. C., Evans, W. F. J., McElroy, C. T., Kerr, J. B., Fast, H., and O'Brien, R. S., 1984, ‘Stratospheric odd nitrogen: measurements of HNO3, NO, NO2, and O3 near 54°N in winter.’ J. Geophys. Res, 89, 4797.
Roscoe, H. K., Drummond, J. R. and Jarnot, R. F., 1981, ‘Infrared measurements of stratospheric composition III. The daytime changes of NO and NO2.’ Proc. R. Soc. Lond, A 375, 507.
Roscoe, H. K., and Pyle, J. A., 1987, ‘Measurements of solar occultation: the error in a naive retrieval if the constituent's concentration changes.’ Accepted for publications in J. Atmos. Chem.
Shafer, J. M. and Young, C., 1976, ‘Absolute integrated intensity for the 3.44μm NO2 band.’ Appl. Opt, 15, 2551.
Tejwani, G. D. D., and Yeung, E. S., 1975, ‘Calculated pressure broadened linewidths of NO2’ US ERDA Rep No IS-3575, Nat. Tech. Inf. Serv, US Dept. Commerce
Timofeev, Y. M. and Tonkov, M. V., 1978, ‘Effect of the pressure induced Oxygen absorption band on the transformation of radiation in the 6μm region in the earth's atmosphere.’ Izvestiya, Atm-Ocean Phys, 14, 47.
Toth, R. A. and Hunt, R. H. 1980, ‘Line strengths, spin-splittings, and forbidden transitions in the (101) band of 14N16O2.’ J. Mol. Spectrosc, 79, 182.
Twomey, S. S., 1977, ‘Some aspects of the inversion problem in remote sensing’ in "Inversion Methods in Atmospheric Remote Sensing". Ed. A Deepak, Academic Press, NY, 41–66.
WMO, 1982, ‘The stratosphere 1981, theory and measurements.’ WMO global ozone research and monitoring project, report no. 11
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Roscoe, H.K., Kerridge, B.J., Pollitt, S. et al. Intercomparison of remote measurements of stratospheric NO and NO2 . J Atmos Chem 10, 111–144 (1990). https://doi.org/10.1007/BF00054853
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DOI: https://doi.org/10.1007/BF00054853