Aerosols bibliography

  1. d'Almedia G.A., P. Koepke, and E.P. Shettle, "Atmospheric Aerosols: Global Climatology and Radiative Characteristics", A. Deepak Publishing, 561 pp. (1991)
  2. Biermann, U.M., B.P. Luo, and Th. Peter, "Absorption Spectra and Optical Constants of Binary and Ternary Solutions of H2SO4, HNO3, and H2O in the Mid Infrared at Atmospheric Temperatures", J.Phys.Chem. A 104, 783­793 (2000).
  3. Clapp, M.L., R.E. Miller, and D.R. Worsnop, "Frequency­Dependent Optical Constants of Water Ice Obtained Directly from Aerosol Extinction Spectra", J.Phys.Chem. 99, 6317­6326 (1995).
  4. Dorsey, N. E., "Properties of ordinary water-substance in all its phases: water vapor and all the ices", American Chemistry Society, Monograph Series, Reinhold Publishing Corp., New York, NY, 332-338 (1940).
  5. Deirmendjian D., Electromagnetic Scattering on Spherical Polydispersions. Elsevier, 290 pp. (1969)
  6. Downing H.D., and Williams D., "Optical constants of water in the infrared", J.Geophys.Res., 80, 1656-1661 (1975).
  7. Drummond, D. G., "Absorption coefficients of crystal quartz in the infrared", Proc. Roy. Soc. (London)-Series A,153, 328-338 (1936).
  8. Eldridge, J. E. and Palik, E. D., "Sodium Chloride", in "Handbook of Optical Constants of Solids", Edited by E. D. Palik, Academic Press, Inc., Orlando, FL, 775-793 (1985).
  9. Fenn, R. W., Clough, S. A., Gallery, W. O., Good, R. E., Kneizys, F. X., Mill, J. D., Rothman, L. S. and Shettle, E.P.,"Optical and infrared properties of the atmosphere", Chapter 18 in Handbook of Geophysics and the Space Environment, Edited by A.S. Jursa, Air Force Geophysics Laboratory, Hanscom AFB, MA.
  10. Fischer K., "Mass absorption coefficient of natural aerosol particles in 0,4 - 2,4 mm wavelength interval", Contr. Atm. Phys., 46, 89-100 (1973).
  11. Fischer K., "The optical constants of atmospheric aerosol particles in the 7,5 - 12 mm spectral region", Tellus, 28, 266-274 (1976).
  12. Galuza, A. I., Eremenko, V. V. and Kirichenko, A. P., "Analysis of hematite reflection spectrum by the Kramers-Kronig method", Sov. Phys. Solid State, 21, 654-656 (1979).
  13. Grams G., et al., "Compex index of refraction of airborn fly ash determined by laser radar and collection of particles at 13 km", J. Atm. Scie., 29, 900-905 (1972).
  14. Gray, D. C., "American Institute of Physics Handbook", McGraw-Hill, New York, NY, 1963, 2nd Edition.
  15. Hale, G. M. and Querry, M. R., "Optical constants of water in the 200 mm to 200 um wavelength region", Appl. Opt.,12, 555-563 (1973)
  16. Hanbook of clouds and cloudy atmosphere, 649 pp., Leningrad, 1989 (in Russian)
  17. Hess M., and M. Wiegner, "COP: A data library of optical properties of hexagonal ice crystals", Appl. Optics, 33, 7740-7746 (1994).
  18. Hess M., P. Koepke, and I. Schult, "Optical properties of Aerosols and Clouds: The software package OPAC", Bulletin of American Meteorological Society, 79, 831-844 (1998).
  19. Hummel, J. R., Shettle, E. P. and Longtin, D. R. "A New Background Stratospheric Aerosol Model for Use in Atmospheric Radiation Models", AFGL-TR-88-0166, Air Force Geophysics Laboratory, Hanscom AFB, MA, August 1988.
  20. Kerker, M., Scheiner, P., Cooke, D. D. and Kratohvil, J.P., "Absorption index and color of colloidal hematite", J. Colloid. Interface Sci., 71, 176-187 (1979).
  21. Koepke P., M. Hess, I. Schult, and E.P. Shettle, "Global aerosol dataset", Report N 243, Max-Plank-Institut fuer Meteorologie, Hamburg, 44 pp., 1997.
  22. Kou L., Labrie D., and Chylek P., "Refractive indices of water and ice in the 0.65 to 2.5 micron range", Appl.Opt.,32, 3531-3540 (1993).
  23. Longtin, D. R., Shettle, E. P., Hummel, J. R. and Pryce, J. D., "A Wind Dependent Desert Aerosol Model: Radiative Properties", AFGL-TR-88-0112, Air Force Geophysics Laboratory, Hanscom AFB, MA, April 1988.
  24. Niedziela, R.F., R.E. Miller, and D.R. Worsnop, "Temperature and Frequency­Dependent Optical Constants for Nitric Acid Dihydrate from Aerosol Spectroscopy", J.Phys.Chem. A 102, 6477­6484 (1998).
  25. Niedziela, R.F., M.L. Norman, C.L. deForest, R.E. Miller, and D.R. Worsnop, "A Temperature and Composition­Dependent Study of H2SO4 Aerosol Optical Constants Using Fourier Transform and Tunable Diode Laser Infrared Spectroscopy", J.Phys.Chem. A 103, 8030­8040 (1999).
  26. Norman, M.L., J. Qian, R.E. Miller, and D.R. Worsnop, "Infrared complex refractive indices of supercooled liquid HNO3/H2O aerosols", J.Geophys.Res.104, 30571­30584 (1999).
  27. Onari, S., Arai, T. and Kudo, K., "Infrared lattice vibrations and dielectric dispersion in - Fe2O3", Phys. Rev., B16, 1717-1721 (1977)
  28. Palmer K.F. and Dudley Williams, "Optical constants of sulfuric acid: Application to the clouds of Venus?", Appl.Opt.,14, 208-219 (1975).
  29. Philipp, H. R., "Silicon dioxide (SiO2), type-(crystalline)", in "Handbook of Optical Constants of Solids", Edited by E. D. Palik, Academic Press, Inc., Orlando, FL, 719-747 (1985).
  30. Pueshel R.F., and P.M. Kuhn, "Infrared absorption of tropospheric aerosols: urban and rural aerosols of Phoenix, Arizona", J. Geophys. Res., 80, 2961-2962 (1975).
  31. Quenzel H., and H. Mueller, "Optical properties of single Mie particles: Diagrams of intensity-, extinction-, scattering-, and absorption efficiencies", Universitaet Muenchen, Meteorologisches Institut, Wiss. Mit., Nr 34, 59 pp., 1978.
  32. Querry, M.R., and I.L. Tyler, "Reflectance and complex refractive indices in the infrared of aqueous solutions of nitric acid", J.Chem.Phys. 72, 2495­2499 (1980).
  33. Ray, P. S., "Broadband complex refractive indices of ice and water", Appl. Opt., 11,1836-1844 (1972).
  34. Remsberg E.E., Lavery D., and Crawford B., "Optical constants for sulfuric and nitric acids", J.Chem. and Engin. Data, 19, 263-255 (1974).
  35. Richwine, L.J., M.L. Clapp, R.E. Miller, and D.R. Worsnop, "Complex refractive indices in the infrared of nitric acid trihydrate aerosols", Geo.Res.Lett. 22, 2625­2628 (1995).
  36. Rublev A.N., "Algorithms and calculations of aerosol phase functions", Internal note IAE-5715/16 of the Russian Research Center "Kurchatov Institute", 51 pp., 1994 (in Russian)
  37. Shettle, E. P. and Volz, F. E., "Optical constants for meteoric dust aerosol models" in "Atmospheric Aerosols: Their Optical Properties and Effects", a Topical Meeting on Atmospheric Aerosols sponsored by the Optical Society of America and NASA Langley Research Center, Williamsburg, VA, 13-15 Dec. 1976. NASA Conference Publication CP 2004
  38. Shettle, E. P. and Fenn, R. W., "Models for the Aerosols of the Lower Atmosphere and the Effects of Humidity Variations on Their Optical Properties", AFGL-TR-79-0214, 20 Sept 1979, ADA085951.
  39. Spitzer, W. G. and Kleinman, D. A., "Infrared lattice bands of quartz", Phys. Rev., 121, 1324-1335 (1961).
  40. Steele H.M., and Hamill P., "Effects of temperature and humidity on the growth and optical properties of sulphuric acid-water droplets in the stratosphere", J.Aerosol Sci., 12, 517-528 (1981).
  41. Steyer, T. R. "Infrared optical properties of some solids of possible interest in astronomy and atmospheric physics",Graduate Thesis, Department of Physics, University of Arizona (1974).
  42. Sutherland, R.A., and R.K. Khanna, "Optical Properties of Organic­based Aerosols Produced by Burning Vegetation", Aerosol Science and Technology14, 331­342 (1991).
  43. Tampieri F., and C. Tomasi, "Size distribution models of fog and cloud droplets in terms of the modified gamma function", Tellus, 28, 333-347 (1976).
  44. Timmermans J., "The physico-chemical constants of binary systems in concentrated solutions", Interscience, New York, (1960).
  45. Tisdale, R.T., D.L. Glandorf, M.A. Tolbert, and O.B. Toon, "Infrared optical constants of low temperature H2SO4 solutions representative of stratospheric sulfate aerosols", J.Geophys.Res. 103, 25353-25370 (1998).
  46. Toon, O. B., Pollock, J. B. and Khare, B. N., "The optical constants of several atmospheric aerosols species: ammonium sulfate, aluminum oxide and sodium chloride", J. Geophys. Res., 81, 5733-5748 (1976).
  47. Toon O.B., Tolbert M.A., Koehler B.C., Middlebrook A.M., and Jordan J., "The infrared optical constants of H2O-ice, amorphous nitric acid solutions, and nitric acid hydrates", J. Geophys. Res., 99, 25631-25654 (1994)
  48. Twitty, J. T. and Weinman, J. A., "Radiative properties of carbonaceous aerosols", J. Appl. Meteor., 10, 725-731 (1971).
  49. Twomey S., Atmospheric Aerosols (Elsevier, New York, 1977)
  50. Van de Hulst, H.C., Light scattering by small particles, 470 pp., New York : Dover Publications, 1981
  51. Volz F.E., "Infrared refractive index of atmospheric aerosol substances", Appl. Optics, 11, 755-759 (1972a).
  52. Volz, F. E., "Infrared absorption by atmospheric aerosol substance", J. Geophys. Res., 77, 1017-1031 (1972b).
  53. Volz F.E., "Infrared optical constants of ammonium sulfate, Sahara dust; volcanic pumice and flyash", Appl. Optics., 12, 564-568 (1973).
  54. Ward G., et al., "Atmospheric aerosol index of refraction and size-altitude distribution from be-static laser scattering ans solar aerosol measurements", Appl. Opt., 12, 1285-2592 (1973).
  55. Warren S.G., "Optical constants of ice from the ultraviolet to the microwave", Appl.Opt., 23, 1206-1225 (1993).
  56. World Meteorology Organization (WMO) publication: "A preliminary cloudless standard atmosphere for radiation computation", WCP-112, WMO/TD-NO. 24 (1986)
  57. Zolatarev V.M., Morozov V.M., and E.V. Smirnova, "Optical constants of natural and technology media", 216 pp., Leningrad, 1984 (in Russian)
  58. Norman, M. L., R. E. Miller, D. R. Worsnop, Ternary H2SO4.HNO3/H2O Optical Constants: New Measurements from Aerosol Spectroscopy under Stratospheric Conditions. J. Phys. Chem. A, vol 106, ppgs 6075-8040, 2002.