M. N. Markov scite author profile

M. N. Markov

5Publications

104Citation Statements Received

8Citation Statements Given

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Affiliations

Novosibirsk State Technical University, P.N. Lebedev Physical Institute of the Russian Academy of Sciences, St Petersburg University

Publications

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Numerical modelling of the thermospheric heat budget

Gordiet︠s︡¹,

Kulikov²,

Markov³

et al. 1982

J. Geophys. Res.

125

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Numerical models of the thermal budget of the earth's upper atmosphere in the height range of 90–500 km are developed. The main sources and sinks of energy, including infrared radiative cooling in vibrational‐rotational bands of NO, CO2, OH, and O3 as well as heating and cooling arising from dissipation of turbulent energy and eddy heat transport, are taken into account. The calculated temperature and density height profiles are in good agreement with the respective profiles from the Cira (1972) and Jacchia (1977) models. It is found that thermal collisions between CO2 and atomic oxygen play an important role in the formation of the lower thermospheric 15µ radiation. It is also found that the maximum value of the time average eddy diffusion coefficient in the thermosphere cannot exceed 3×106 cm²s−1. The calculations show that for the statistically average thermospheric condition infrared radiative cooling by CO2 and NO in the 15µ and 5.3µ bands, but not eddy turbulence or molecular conduction provides the major loss of heat in the height range of 90–180 km.

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I.R. Radiation of the upper atmosphere

Gordiet︠s︡

Markov

Shelepin

1978

Planetary and Space Science

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The influence of radiative cooling and turbulence on the heat budget of the thermosphere

Gordiet︠s︡

Markov

Kulikov

et al. 1981

Advances in Space Research

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The stage of nucleation of supercritical droplets with thermal effects in the regime of nonstationary diffusion and heat transfer

Kuchma

Щекин

Markov

2015

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Near IR variability of the quiet Sun

Markov

Volynov

Zholobov

et al. 1979

Nature

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M. N. Markov

Numerical modelling of the thermospheric heat budget

I.R. Radiation of the upper atmosphere

The influence of radiative cooling and turbulence on the heat budget of the thermosphere

The stage of nucleation of supercritical droplets with thermal effects in the regime of nonstationary diffusion and heat transfer

Near IR variability of the quiet Sun

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