Molecular atmospheric transmittance function in the range of 2-400 μm and earth radiation balance / Zakharov V.I., Gribanov K.G., Falko M.V., Golovko V.F., Chursin A.A., Nikitin A.V., Tyuterev Vl.G. // Journal of Quantitative Spectroscopy and Radiative Transfer. - 1997. - V. 57, l. 1. - P. 1-10.

ISSN:

00224073

Type:

Article

Abstract:

Mechanisms of the influence of the atmospheric transmission function, in the range 2-400 μm and especially in the windows 8-13 and 3-4 μm, on the thermal balance of the Earth's atmosphere are discussed. The negative and positive feedbacks between the absorption of the outgoing heat radiation in the atmosphere and the heating of the Earth's surface are considered. The database GEISA-92, which provides spectral line parameters of atmospheric constituents, has been used for simulations of infrared radiation transfer and the Earth's radiation balance. The temperature dependence of the molecular transmission function is calculated, and three steady states for Earth radiation balance are obtained. A type of the radiation balance, leading to "closing" of the atmospheric transmittance window 8-13 μm and development of the explosive greenhouse effect, is discussed. Copyright © 1997 Elsevier Science Ltd.

Author keywords:

Index keywords:

atmospheric transmittance; radiation balance

DOI:

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Affiliations	Laser-Test and High Tech Division, EB ENTEK Zarechny Settle, Sverdlovsk reg., 624051, Russian Federation; Lab. of Theoretical Spectroscopy, Institute of Atmospheric Optics, Tomsk, 634055, Russian Federation; Lab. Phys. Molec. et Atmospherique, Faculté des Sciences, Université de Reims, Reims Cédex, France
References	Budyko, M.I., (1980) Climate in the Past and Future, , Hidromet., Leningrad; Bolin, B., (1989) Greenhouse Effect. Climate Variation and Ecosystems, , Hidromet., Leningrad; Gilchrist, A., (1987) Carbon Dioxide in Atmosphere, p. 231. , W. Bach et al, eds., Mir, Moscow; Fomin, V.V., (1986) Molecular Absorption in Infrared Transparency Windows, , Nauka, Novosibirsk; Zakharov, V.I., Shmelev, V.M., Nesterenko, A.I., (1991) J. de Phys., 4, p. 775; Moiseev, N.N., Aleksandrov, V.V., Tarko, A.M., (1985) A Man and Biosphere, , Nauka, Moscow; Chedin, A., Chanine, M.T., Scott, N.A., High Spectral Resolution Infrared Remote Sensing for Earth's Weather and Climate Studies (1994) NATO ASI Series, Series I: Global Environmental Change, 9. , Springer, Berlin; Chedin, A., Husson, N., Bonnet, B., Scott, N.A., (1985) The GEISA Data Bank, 1984 Version, , Laboratoire de Meteorologie Dynamique de CNRS, Internal Note LMD, Ecole Politechnique; Husson, N., Bonnet, B., Scott, N., Chedin, A., (1992) JQSRT, 48, p. 509; Husson, N., Bonnet, B., Chedin, A., Scott, N.A., Chursin, A.A., Golovko, V.F., Tyuterev, V.G., (1993) ASA Workshop Proceedings, p. 275. , Reims; (1994) JQSRT, 52, p. 425; Golovko, V.F., Pozdnyakov, A.A., Tyuterev, V.G., Chursin, A.A., (1992) Atmos. Oceanic Optics, 5, p. 706; Nikitin, A.V., Golovko, V.F., Chursin, A.A., Tyuterev, V.G., (1994) AIRSENTRY Software: Atmospheric Infra-Red Spectra for Emulating and Noting of Transmittance of Rays User's Guide, , Laboratory of Theoretical Spectroscopy, Tomsk; Anderson, G.P., Clough, S.A., Kneizys, F.X., Cherwynd, J.H., Shettle, E.P., (1986) AFGL Atmospheric Constituent Profiles (0-120 Km), Report, ERP, 954. , AFGL-TR-86-0110, Air Force Geophysics Laboratory, Hanscom AFB, MA; Ambartzumian, V.A., (1936) Publ. Obs. Astron. Univ. Leningrad, 6, p. 7; Stephens, G.L., (1984) Mon. Wea. Rev., 112, p. 826; Fu, Q., Liou, K.N., (1992) J. Atmos. Sci., 49, p. 2139; Budyko, M.I., (1969) Tellus, 21, p. 611; Sellers, W.D., (1969) J. Appl. Met., 8, p. 392; Matveev, L.T., (1991) Theory of Atmospheric Circulation and Climate of the Earth, , Hidromet., Leningrad; Bach, (1987) Carbon Dioxide in Atmosphere, , Mir, Moscow; Nicholls, G.D., (1967) Mantles of the Earth and Terrestrial Planets, p. 285. , Interscience, New York; Mueller, R.F., (1969) Science, 163, p. 1322; Kriskunov, V.Z., (1979) Reference Book on Infrared Technique, , Soviet Radio, Moscow; Zakharov, V.I.Z., Shmelev, V.M., ProkoP'Ev, V.I., Gribanov, K.G., (1992) Atomnaya Energiya, 72, p. 98; Frank-Kamenetskii, D.A., (1987) Diffusion and Heat Transfer in Chemical Kinetics, , Nauka, Moscow; Bach, W., (1987) Carbon Dioxide in Atmosphere, , W. Bach et al, eds., Mir, Moscow; Nicolis, C., (1992) Long Term Climate Transitions and Stochastic Resonance, , Institute Royal Meterologique de Belgique, Preprint; Crafoord, C., Kallen, E., (1978) J. Atmos. Sci., 35, p. 1123; Kutepov, A.A., Fomichev, V.I., (1993) J. Atmos. Terr. Phys., 55, p. 1; Nicolis, C., (1982) Tellus, 34, p. 1
Correspondence Address	Zakharov, V.I.; Laser-Test and High Tech Division, EB ENTEK Zarechny Settle, Sverdlovsk reg., 624051, Russian Federation
Language of Original Document	English
Abbreviated Source Title	J. Quant. Spectrosc. Radiat. Transf.
Source	Scopus