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Publications

Publications since 2000

  • A. V. Rozanov, V. V. Rozanov, J. P. Burrows, Modeling of inelastically scattered radiation: Rotational Raman scattering in the spherical Earth?s atmosphere, J. Quant. Spectrosc. Radiat. Trans., 268, 107611, 2021, https://doi.org/10.1016/j.jqsrt.2021.107611.
  • Zawada, D., Franssens, G., Loughman, R., Mikkonen, A., Rozanov, A., Emde, C., Bourassa, A., Dueck, S., Lindqvist, H., Ramon, D., Rozanov, V., Dekemper, E., Kyrölä, E., Burrows, J. P., Fussen, D., and Degenstein, D.: Systematic comparison of vectorial spherical radiative transfer models in limb scattering geometry, Atmos. Meas. Tech., 14, 3953-3972, https://doi.org/10.5194/amt-14-3953-2021, 2021.
  • V.V. Rozanov, T. Dinter, A.V. Rozanov, A. Wolanin, A. Bracher, J.P. Burrows, Radiative transfer modeling through terrestrial atmosphere and ocean accounting for inelastic processes: Software package SCIATRAN, Journal of Quantitative Spectroscopy and Radiative Transfer, Volume 194, June 2017, Pages 65-85, ISSN 0022-4073, http://dx.doi.org/10.1016/j.jqsrt.2017.03.009.
  • Rozanov, V.V., Rozanov, A.V., Kokhanovsky, A.A., Burrows, J.P.: Radiative transfer through terrestrial atmosphere and ocean: Software package SCIATRAN, Journal of Quantitative Spectroscopy & Radiative Transfer, Vol. 133, 2014, pp. 13 - 71, DOI: 10.1016/j.jqsrt.2013.07.004
  • V. V. Rozanov and A. V. Rozanov, Generalized form of the direct and adjoint radiative transfer equations, Journal of Quantitative Spectroscopy and Radiative Transfer, 104(1), 155-170, 2007.
  • V. V. Rozanov and A. V. Rozanov, Relationship between different approaches to derive weighting functions related to atmospheric remote sensing problems, Journal of Quantitative Spectroscopy and Radiative Transfer, 105(2), 217-242, 2007.
  • Loughman R. P., E. Griffioen, L. Oikarinen, O. V. Postylyakov, A. Rozanov, D. E. Flittner, D. F. Rault, Comparison of radiative transfer models for limb-viewing scattered sunlight measurements, J. Geophys. Res., 109, D06303, doi:10.1029/2003JD003854, 2004.

Older Publications

  • 1) AKIMA, H. A new method of interpolation and smooth curve fitting based on local procedures. Journal of Assc. for Comp. Mach. 17, 4 (Oct. 1970), 589-602.
  • 2) BARKSTROM, B. R. A finite differencing method of solving anisotropic scattering problems. J. Quant. Spectrosc. Radiat. Transfer 16 (1976), 725-739.
  • 3) BATES, D. R. Rayleigh scattering by air. Planet. Space Sci. 32 (6) (1984), 785-790.
  • 4) BLINDAUER, C., ROZANOV, V. V., AND BURROWS, J. P. Actinic flux and photolysis frequency comparison computations using the model PHOTOGT. J. Atmos. Chem. 24 (1996), 1-21.
  • 5) BOVENSMANN, H., BURROWS, J. P., BUCHWITZ, M., FRERIK, J., NO¨EL, S., ROZANOV, V. V., CHANCE, K. V., AND GOEDE, A. SCIAMACHY - mission objectives and measurement modes. J. Atmos. Sci. 56(2) (1999), 127-150.
  • 6) BUCHWITZ, M., ROZANOV, V. V., AND BURROWS, J. P. Development of a correlated-k distribution band model scheme for the radiative transfer program GOMETRAN/SCIATRAN for retrieval of atmospheric constituents from SCIAMACHY/ENVISAT-1 data. In Satellite Remote Sensing of Clouds and the Atmosphere III (1998), J. E. Russell, Ed., vol. 3495, pp. 171-186. European Symposium on Remote Sensing, 21-24 Sept. 1998, Barcelona, Spain.
  • 7) BUCHWITZ, M., ROZANOV, V. V., AND BURROWS, J. P. A correlated-k distribution scheme for the radiative transfer model GOMETRAN/SCIATRAN: Accuracy, speed, and applications. vol. WPP-161, pp. 765-770. in Proc. European Symposium on Atmospheric Measurements from Space (ESAMS 99), ESA/ESTEC, Noordwijk, The Netherlands, 18-22 January 1999.
  • 8) BUCHWITZ, M., ROZANOV, V. V., AND BURROWS, J. P. A correlated-k distribution scheme for overlapping gases suitable for retrieval of atmospheric constituents from moderate resolution radiance measurements in the visible/near-infrared spectral region. J. Geophys. Res. (2000). in press.
  • 9) BURROWS, J. P., DEHN, A., DETERS, B., HIMMELMANN, S., RICHTER, A., VOIGT, S., AND ORPHAL, J. Atmospheric remote-sensing reference data from GOME: Part 1. temperature-dependent absorption cross sections of NO2 in the 231-794nm range. J. Quant. Spectrosc. Radiat. Transfer 60 (1998), 1025-1031.
  • 10) BURROWS, J. P., DIEBEL, D., KERRIDGE, B., MUNRO, R., PEMBERTON, D., PLATT, U., AND FRANK, H. A study of methods for retrieval of atmospheric constituents. Tech. rep., European Space Agency ESA/ESTEC, PO Box 299, 2200 AG Noordwijk, The Netherlands, July 1994. Final Report ESA Contract 9687/91/NL/BI.
  • 11) BURROWS, J. P., RICHTER, A., DEHN, A., DETERS, B., HIMMELMANN, S., VOIGT, S., AND ORPHAL, J. Atmospheric remote-sensing reference data from GOME: Part 2. temperature-dependent absorption cross sections of O3 in the 231-794nm range. J. Quant. Spectrosc. Radiat. Transfer (1998). in press.
  • 12) BURROWS, J. P., WEBER, M., BUCHWITZ, M., ROZANOV, V., LADST¨ATTER-WEI¨SENMAYER, A., RICHTER, A., DE BEEK, R., HOOGEN, R., BRAMSTEDT, K., EICHMANN, K.-U., EISINGER, M., AND PERNER, D. The Global Ozone Monitoring Experiment (GOME): Mission concept and first scientific results. J. Atmos. Sci. 56(2) (1999), 151-175.
  • 13) CHANCE, K., AND SPURR, R. J. D. Ring effect studies: Rayleigh scattering, including molecular parameters for rotational Raman scattering and the Fraunhofer spectrum. Applied Optics 36 (1997), 5224-5230.
  • 14) EICHMANN, K.-U. Optimierung und Validierung des pseudo-sphärischen Strahlungstransportmodells GOMETRAN. Universität Bremen, 1995. Diplomarbeit im Studiengang Physik.
  • 15) GOODY, R. M., WEST, R., CHEN, L., AND CRISP, D. The correlated-k method for radiation calculations in nonhomogeneous atmospheres. J. Quant. Spectrosc. Radiat. Transfer 42 (6) (1989), 539-550.
  • 16) GREENBLATT, G. D., ORLANDO, J. J., BURKHOLDER, J. B., AND RAVISHANKARA, A. R. Absorption measurements of oxygen between 330 and 1140 nm. J. Geophys. Res. 95 (1990), 18577-18582.
  • 17) HEARN, C. H., AND JOENS, J. A. The near UV absorption spectrum of CS2 and SO2 at 300K. J. Quant. Spectrosc. Radiat. Transfer 45 (1991), 69-75.
  • 18) HOOGEN, R. Aerosol Parameterization in GOMETRAN++. Institut für Umweltphysik, Universität Bremen, 1995. internal report.
  • 19) HOOGEN, R. Inversion globaler Ozonverteilungen aus Messungen des Satelliteninstruments GOME. Institut für Umweltphysik, Universität Bremen, 1998. Dissertation.
  • 20) HOOGEN, R., ROZANOV, V. V., BRAMSTEDT, K., EICHMANN, K.-U., WEBER, M., AND BURROWS, J. P. O3 profiles from GOME satellite data - I: Comparison with ozonesonde measurements. Physics and Chemistry of the Earth (1998). in press.
  • 21) HOOGEN, R., ROZANOV, V. V., BRAMSTEDT, K., EICHMANN, K.-U., WEBER, M., AND BURROWS, J. P. Validation of ozone profiles from GOME satellite data. In Proc. SPIE (1998), vol. 3495. paper no. 42.
  • 22) HOOGEN, R., ROZANOV, V. V., AND BURROWS, J. P. Ozone profiles from GOME satellite data: Algorithm description and first validation. J. Geophys. Res. (1999). in press.
  • 23) KAISER, J., ROZANOV, V. V., BUCHWITZ, M., AND BURROWS, J. P. Steps towards limb profile retrieval using a spherical radiative transfer model based on the single scattering approximation. vol. WPP-161, pp. 771-777. submitted to Proc. European Symposium on Atmospheric Measurements from Space (ESAMS 99), ESA/ESTEC, Noordwijk, The Netherlands, 18-22 January 1999.
  • 24) KAUSS, J. Aerosol Parametrisierung für Strahlungstransport-Simulationen im ultravioletten bis nahinfraroten Spektralbereich. Universität Bremen, 1998. Diplomarbeit am Institut für Umweltphysik.
  • 25) KNEIZYS, F., ABREU, L., ANDRSON, G., CHETWYND, J., SHETTLE, E., BERK, A., BERNSTEIN, L., ROBERTSON, D., ACHARYA, P., ROTHMAN, L., SELBY, J., GALLERY, W., AND CLOUGH, S. The MODTRAN 2/3 report and LOWTRAN 7 model. Tech. rep., Phillips Laboratory, Hanscom AFB, 1996. contract F19628-91-C-0132 with Ontar Corp.
  • 26) KNEIZYS, F. X., SHETTLE, E. P., ABREU, L. W., CHETWYND, J. H., ANDERSON, G. P., GALLERY, W. O., SELBY, J. E. A., AND CLOUGH, S. A. Users Guide to LOWTRAN 7. Tech. rep., Air Force Geophysics Laboratory AFGL, 1986.
  • 27) KUROSU, T. Die Modellierung des Strahlungstransports in Wolken für atmosphärische Fernerkundung im ultravioletten und sichtbaren Spektralbereich. Universität Bremen, 1997. Dissertation am Institut für Umweltphysik.
  • 28) KUROSU, T., ROZANOV, V. V., AND BURROWS, J. P. Parameterization schemes for terrestrial water clouds in the radiative transfer model GOMETRAN. J. Geophys. Res. 102 (D18) (1997), 21809-21823.
  • 29) LENOBLE, J. Radiative Transfer in Scattering and Absorbing Atmospheres: Standard computational procedures. A. Deepak Publishing, Hampton, Virginia, 1985.
  • 30) MCCLATCHEY, R. A., FENN, R. W., SELBY, J. E., VOLZ, F. E., AND GARING, J. S. Optical properties of the atmosphere, 1972. 3rd. edn. AFCRL-72-0497, Environmental Research Papers No. 411.
  • 31) NASA/JPL. Chemical kinetics and photochemical data for use in stratospheric modeling. Evaluation number 10, 1992.
  • 32) P. KöPKE AND A. BAIS AND D. BALIS AND M. BUCHWITZ AND HUGO DE BACKER ET AL. Comparison of models used for UV index calculations. Photochemistry and Photobiology 67 (6) (1998), 657-662.
  • 33) PAUR, R. J., AND BASS, A. M. The ultraviolett cross sections of ozone: II. Results and temperature dependence. In Proc. Quadrennial Ozone Symposium (Halkidiki, Greece, 1984), pp. 611-616.
  • 34) PRESS, W., TEUKOLSKY, S., VETTERLING, W., AND FLANNERY, B. Numerical Recipes in Fortran. Cambridge University Press, London, 1992.
  • 35) ROTHMAN, L. S., RINSLAND, C. P., GOLDMAN, A., MASSIE, S. T., EDWARDS, D. P., FLAUD, J.-M., PERRIN, A., CAMY-PEYRET, C., DANA, V., MANDIN, J.-Y., SCHROEDER, J., MCCANN, A., GAMACHE, R. R., WATTSON, R. B., YOSHINO, K., CHANCE, K. V., JUCKS, K. W., BROWN, L. R., NEMTCHINOV, V., AND VARANASI, P. The HITRAN molecular spectroscopic database and HAWKS (HITRAN atmospheric workstation): 1996 edition. J. Quant. Spectrosc. Radiat. Transfer 60 (5) (1998), 665-710.
  • 36) ROZANOV, A., ROZANOV, V. V., BUCHWITZ, M., AND BURROWS, J. P. A radiative transfer model for SCIAMACHY limb measurements. submitted to Proc. European Symposium on Atmospheric Measurements from Space (ESAMS 99), ESA/ESTEC, Noordwijk, The Netherlands, 18-22 January 1999.
  • 37) ROZANOV, V. V., DIEBEL, D., SPURR, R. J. D., AND BURROWS, J. P. GOMETRAN: A radiative transfer model for the satellite project GOME - the plane-parallel version. J. Geophys. Res. 102 (D14) (1997), 16683-16695.
  • 38) ROZANOV, V. V., KUROSU, T., AND BURROWS, J. P. Retrieval of Atmospheric Constituents in the UV-Visible: A New Quasi-Analytical Approach for the Calculation of Weighting Functions. J. Quant. Spectrosc. Radiat. Transfer 60 (2) (1998), 277-299.
  • 39) SHETTLE, E. P., AND FENN, R. W. Models of the aerosols of the lower atmosphere and the effects of humidity variations on their optical properties. Tech. rep., Air Force Geophys. Lab. AFGL, 1979.
  • 40) SIMON, P. J. Photochem. (1989).
  • 41) SOBOLEV, V. V. Light scattering in planetary atmospheres. Pergamon Press Ltd., Oxford, 1975.
  • 42) STEPHENS, S. Optical properties of eight water cloud types. Tech. Rep. 36, Division of Atmospheric Physics, CSIRO, Station Street, Aspendale, Vic. 3195, 1979.
  • 43) VOUNTAS, M., ROZANOV, V. V., AND BURROWS, J. P. Ring effect: Impact of rotational Raman scattering on radiative transfer in earth's atmosphere. J. Quant. Spectrosc. Radiat. Transfer 60 (6) (1998), 943-961.
  • 44) WAHNER, A., RAVISHANKARA, A. R., SANDER, S. P., AND FRIEDL, R. R. Absorption cross sections of BrO between 312 and 385nm at 298K and 223K. Chem. Phys. Lett. 152 (1988), 507-512.
  • 45) WAHNER, A., TYNDALL, G. S., AND RAVISHANKARA, A. R. Absorption cross sections for OClO as a function of temperature in the wavelength range 240-480nm. J. Phys. Chem. 91 (1987), 2734-2738.
SCIATRAN working group
Institute of Environmental Physics (IUP)
Unversity of Bremen, Germany