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King MD, Radke LF, Hobbs PV (1990) Determination of the spectral absorption of solar
radiation by marine straticumulus clouds from airborne measurements within clouds.
J Atmos Sci 47:894-907
Kokhanovsky A, Nakajima T, Zege E (1998) Physically based parameterizations of the
short-wave radiative characteristics of weakly absorbing optically media: application to
liquid-water clouds. Appl Opt 37:4750-4757
Konovalov NV (1974) Asymptotic properties of solution of one-velocity transfer equation
in homogeneous plane layer. Problem with azimuthal dependence. Preprint of Keldysh
Institute for Applied Mathematics (KIAM) RAS, Moscow (in Russian)
Konovalov NV (1975) On applicability region of asymptotic formulas for calculation of
monochromatic radiation in inhomogeneous optically thick plane layer. Izv RAS Atmo-
sphere and Ocean Physics 11:1263-1271 (Bilingual)
Konovalov NV (1997) Certain properties of the reflection function of optically thick lay-
ers. Preprint of Keldysh Institute for Applied Mathematics (KIAM) RAS, Moscow (in
Russian)
Lenoble J (ed) (1985) Radiative transfer in scattering and absorbing atmospheres: standard
computational procedures. A. DEEPAK Publishing, Hampton, Virginia
Marchuk GI, Mikhailov GA, Nazaraliev NA et al. (1980) The Monte-Carlo method in the
atmosphere optics. Springer-Verlag, New York
Melnikova IN (1992) Analytical formulas for determination of optical parameters of cloud
layer on the basis of measuring characteristics of solar radiation field. 1. Theory. Atmo-
sphere and Ocean Optics 5:169-177 (Bilingual)
Melnikova IN, Minin IN (1977) To the transfer theory of monochromatic radiation in cloud
layers. Izv Acad Sci USSR Atmosphere and Ocean Physics 13:254-263 (Bilingual)
Melnikova IN, Zshanabaeva SS (1996) Evaluation of uncertainty of approximate method-
ology of accounting the vertical stratus structure in direct and inverse problems of
atmospheric optics. International Aerosol Conference, December, Moscow (in Rus-
sian)
Melnikova IN, Solovjeva SV (2000) Solution of direct and inverse problem in case of cloud
layers of arbitrary optical thickness and quasi-conservative scattering. In: Ivlev LS (ed)
Natural and anthropogenic aerosols. St. Petersburg, pp 86-90 (in Russian)
Melnikova IN, Dlugach ZhM, Nakajima T, Kawamoto K (2000) On reflected function calcu-
lation simplification in case of cloud layers. Appl Optics 39:541-551
Minin IN(1988) The theory of radiation transfer in the planets atmospheres. Nauka,Moscow
(in Russian)
Mishchenko MI, Dlugach JM, Yanovitskij EG, Zakharova NT (1999) Bi-directional re-
flectance of flat, high-albedo particulate surfaces: an efficient radiative transfer so-
lution and applications to snow and soil surfaces. J Quant Spectrosc Rad Transfer
63:409-432
Molchanov NI (ed) (1970) Set of computer codes of small electronic-digital computer “Mir”.
Vol 1, Methods of calculations. Naukova dumka, Kiev (in Russian)
Nakajima T, King MD (1992) Asymptotic theory for optically thick layers: Application to
the discrete ordinates method. Appl Opt 31:7669-7683
Sobolev VV (1972) The light scattering in the planets atmospheres. Nauka, Moscow (in
Russian)
SobolevVV (1974) Light scattering in inhomogeneous atmosphere. Astronomical J 51:50-55
(in Russian)
Stepanov NN (1948) The spherical trigonometry. Moscow-Leningrad Gostehizdat (in Rus-
sian)
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