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<center><b><font color="#FF0000"><font size=+2>Aerosols
bibliography</font></font></b></center>
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<ol>
<li>
<font face="Arial,Helvetica"><font size=-1>d'Almedia G.A., P. Koepke, and
E.P. Shettle, "<i>Atmospheric Aerosols: Global Climatology and Radiative
Characteristics</i>", A. Deepak Publishing, 561 pp. (1991)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Biermann, U.M., B.P. Luo, and
Th. Peter, "Absorption Spectra and Optical Constants of Binary and Ternary
Solutions of H<sub>2</sub>SO<sub>4</sub>, HNO<sub>3</sub>, and H<sub>2</sub>O
in the Mid Infrared at Atmospheric Temperatures", <i>J.Phys.Chem</i>. <b>A
104</b>, 783&shy;793 (2000).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Clapp, M.L., R.E. Miller, and
D.R. Worsnop, "Frequency&shy;Dependent Optical Constants of Water Ice Obtained
Directly from Aerosol Extinction Spectra",
<i>J.Phys.Chem</i>.
<b>99</b>,
6317&shy;6326 (1995).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Deirmendjian D., <i>Electromagnetic
Scattering on Spherical Polydispersions.
</i>Elsevier, 290 pp. (1969)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Downing H.D., and Williams D.,
"Optical constants of water in the infrared",
<i>J.Geophys.Res</i>.,
<b>80</b>,
1656-1661 (1975).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Drummond, D. G., "Absorption
coefficients of crystal quartz in the infrared",
<i>Proc. Roy. Soc. (London)</i>-Series
A,<b>153</b>, 328-338 (1936).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Eldridge, J. E. and Palik, E.
D., "Sodium Chloride", in "<i>Handbook of Optical Constants of Solids</i>",
Edited by E. D. Palik, Academic Press, Inc., Orlando, FL, 775-793 (1985).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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 <i>Handbook of Geophysics and the Space Environment</i>,
Edited by A.S. Jursa, Air Force Geophysics Laboratory, Hanscom AFB, MA.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Fischer K., "Mass absorption
coefficient of natural aerosol particles in 0,4 - 2,4 mm wavelength interval",
<i>Contr.
Atm. Phys</i>., <b>46</b>, 89-100 (1973).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Fischer K., "The optical constants
of atmospheric aerosol particles in the 7,5 - 12 mm spectral region", <i>Tellus</i>,
<b>28</b>,
266-274 (1976).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Galuza, A. I., Eremenko, V.
V. and Kirichenko, A. P., "Analysis of hematite reflection spectrum by
the Kramers-Kronig method", <i>Sov. Phys. Solid State</i>, <b>21</b>, 654-656
(1979).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Grams G., et al., "Compex index
of refraction of airborn fly ash determined by laser radar and collection
of particles at 13 km", <i>J. Atm. Scie</i>.,
<b>29</b>, 900-905 (1972).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Gray, D. C., <i>"American Institute
of Physics Handbook"</i>, McGraw-Hill, New York, NY, 1963, 2nd Edition.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Hale, G. M. and Querry, M. R.,
"Optical constants of water in the 200 mm to 200 um wavelength region",
<i>Appl.
Opt.</i>,<b>12</b>, 555-563 (1973)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Hanbook of clouds and cloudy
atmosphere, 649 pp., Leningrad, 1989 (in Russian)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Hess M., and M. Wiegner, "COP:
A data library of optical properties of hexagonal ice crystals", <i>Appl.
Optics</i>, <b>33</b>, 7740-7746 (1994).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Hess M., P. Koepke, and I. Schult,
"Optical properties of Aerosols and Clouds: The software package OPAC",
<i>Bulletin
of American Meteorological Society</i>, <b>79</b>, 831-844 (1998).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Hummel, J. R., Shettle, E. P.
and Longtin, D. R. "<i>A New Background Stratospheric Aerosol Model for
Use in Atmospheric Radiation Models</i>", AFGL-TR-88-0166, Air Force Geophysics
Laboratory, Hanscom AFB, MA, August 1988.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Kerker, M., Scheiner, P., Cooke,
D. D. and Kratohvil, J.P., "Absorption index and color of colloidal hematite",
<i>J.
Colloid. Interface Sci.</i>,
<b>71,
</b>176-187 (1979).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Koepke P., M. Hess, I. Schult,
and E.P. Shettle, "<i>Global aerosol dataset</i>", Report N 243, Max-Plank-Institut
fuer Meteorologie, Hamburg, 44 pp., 1997.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Kou L., Labrie D., and Chylek
P., "Refractive indices of water and ice in the 0.65 to 2.5 micron range",
<i>Appl.Opt.,</i><b>32</b>,
3531-3540 (1993).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Longtin, D. R., Shettle, E.
P., Hummel, J. R. and Pryce, J. D., "<i>A Wind Dependent Desert Aerosol
Model: Radiative Properties</i>", AFGL-TR-88-0112, Air Force Geophysics
Laboratory, Hanscom AFB, MA, April 1988.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Niedziela, R.F., R.E. Miller,
and D.R. Worsnop, "Temperature and Frequency&shy;Dependent Optical Constants
for Nitric Acid Dihydrate from Aerosol Spectroscopy",
<i>J.Phys.Chem</i>.
<b>A
102</b>, 6477&shy;6484 (1998).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Niedziela, R.F., M.L. Norman,
C.L. deForest, R.E. Miller, and D.R. Worsnop, "A Temperature and Composition&shy;Dependent
Study of H<sub>2</sub>SO<sub>4</sub> Aerosol Optical Constants Using Fourier
Transform and Tunable Diode Laser Infrared Spectroscopy", <i>J.Phys.Chem</i>.
<b>A
103</b>, 8030&shy;8040 (1999).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Norman, M.L., J. Qian, R.E.
Miller, and D.R. Worsnop, "Infrared complex refractive indices of supercooled
liquid HNO<sub>3</sub>/H<sub>2</sub>O aerosols", <i>J.Geophys.Res.</i><b>104</b>,
30571&shy;30584 (1999).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Onari, S., Arai, T. and Kudo,
K., "Infrared lattice vibrations and dielectric dispersion in - Fe<sub>2</sub>O<sub>3</sub>",
<i>Phys.
Rev.,</i> <b>B16</b>, 1717-1721 (1977)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Palmer K.F. and Dudley Williams,
"Optical constants of sulfuric acid: Application to the clouds of Venus?",
<i>Appl.Opt.,</i><b>14</b>,
208-219 (1975).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Philipp, H. R., "Silicon dioxide
(SiO<sub>2</sub>), type-(crystalline)", in "<i>Handbook of Optical Constants
of Solids</i>", Edited by E. D. Palik, Academic Press, Inc., Orlando, FL,
719-747 (1985).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Pueshel R.F., and P.M. Kuhn,
"Infrared absorption of tropospheric aerosols: urban and rural aerosols
of Phoenix, Arizona", <i>J. Geophys. Res</i>.,
<b>80</b>, 2961-2962 (1975).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Quenzel H., and H. Mueller,
"<i>Optical properties of single Mie particles: Diagrams of intensity-,
extinction-, scattering-, and absorption efficiencies</i>", Universitaet
Muenchen, Meteorologisches Institut, Wiss. Mit., Nr 34, 59 pp., 1978.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Querry, M.R., and I.L. Tyler,
"Reflectance and complex refractive indices in the infrared of aqueous
solutions of nitric acid", <i>J.Chem.Phys</i>.
<b>72</b>, 2495&shy;2499
(1980).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Ray, P. S., "Broadband complex
refractive indices of ice and water", <i>Appl. Opt</i>., <b>11</b>,1836-1844
(1972).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Remsberg E.E., Lavery D., and
Crawford B., "Optical constants for sulfuric and nitric acids", <i>J.Chem.
and Engin. Data</i>, <b>19</b>, 263-255 (1974).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Richwine, L.J., M.L. Clapp,
R.E. Miller, and D.R. Worsnop, "Complex refractive indices in the infrared
of nitric acid trihydrate aerosols", <i>Geo.Res.Lett</i>.
<b>22</b>, 2625&shy;2628
(1995).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Shettle, E. P. and Volz, F.
E., "Optical constants for meteoric dust aerosol models" in "<i>Atmospheric
Aerosols: Their Optical Properties and Effects</i>", 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</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Shettle, E. P. and Fenn, R.
W., <i>"Models for the Aerosols of the Lower Atmosphere and the Effects
of Humidity Variations on Their Optical Properties"</i>, AFGL-TR-79-0214,
20 Sept 1979, ADA085951.</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Spitzer, W. G. and Kleinman,
D. A., "Infrared lattice bands of quartz",
<i>Phys. Rev</i>., <b>121, </b>1324-1335
(1961).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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",
<i>J.Aerosol Sci</i>.,
<b>12</b>,
517-528 (1981).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Steyer, T. R. "<i>Infrared optical
properties of some solids of possible interest in astronomy and atmospheric
physics</i>",Graduate Thesis, Department of Physics, University of Arizona
(1974).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Sutherland, R.A., and R.K. Khanna,
"Optical Properties of Organic&shy;based Aerosols Produced by Burning Vegetation",
<i>Aerosol
Science and Technology</i><b>14</b>, 331&shy;342 (1991).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Tampieri F., and C. Tomasi,
"Size distribution models of fog and cloud droplets in terms of the modified
gamma function", <i>Tellus</i>, <b>28</b>, 333-347 (1976).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Timmermans J., "The physico-chemical
constants of binary systems in concentrated solutions", Interscience, New
York, (1960).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Tisdale, R.T., D.L. Glandorf,
M.A. Tolbert, and O.B. Toon, "Infrared optical constants of low temperature
H<sub>2</sub>SO<sub>4</sub> solutions representative of stratospheric sulfate
aerosols", <i>J.Geophys.Res</i>. <b>103</b>, 25353-25370 (1998).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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", <i>J. Geophys.
Res.</i>, <b>81</b>, 5733-5748 (1976).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Toon O.B., Tolbert M.A., Koehler
B.C., Middlebrook A.M., and Jordan J., "The infrared optical constants
of H<sub>2</sub>O-ice, amorphous nitric acid solutions, and nitric acid
hydrates", <i>J. Geophys. Res</i>., <b>99</b>, 25631-25654 (1994)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Twitty, J. T. and Weinman, J.
A., "Radiative properties of carbonaceous aerosols", <i>J. Appl. Meteor.</i>,
<b>10</b>,
725-731 (1971).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Twomey S., <i>Atmospheric Aerosols</i>
(Elsevier, New York, 1977)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Van de Hulst, H.C., <i>Light
scattering by small particles</i>, 470 pp., New York : Dover Publications,
1981</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Volz F.E., "Infrared refractive
index of atmospheric aerosol substances",
<i>Appl. Optics</i>, <b>11</b>,
755-759 (1972a).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Volz, F. E., "Infrared absorption
by atmospheric aerosol substance", <i>J. Geophys. Res</i>., <b>77</b>,
1017-1031 (1972b).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Volz F.E., "Infrared optical
constants of ammonium sulfate, Sahara dust; volcanic pumice and flyash",
<i>Appl.
Optics</i>., <b>12</b>, 564-568 (1973).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Warren S.G., "Optical constants
of ice from the ultraviolet to the microwave",
<i>Appl.Opt</i>.,
<b>23</b>,
1206-1225 (1993).</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>World Meteorology Organization
(WMO) publication: "<i>A preliminary cloudless standard atmosphere for
radiation computation</i>", WCP-112, WMO/TD-NO. 24 (1986)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>Zolatarev V.M., Morozov V.M.,
and E.V. Smirnova, "Optical constants of natural and technology media",
216 pp., Leningrad, 1984 (in Russian)</font></font></li>

<li>
<font face="Arial,Helvetica"><font size=-1>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.
</font></font></li>
</ol>
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