@Article{PoliukhovChShRiTaMaMu:2018:RaEfDi,
author = "Poliukhov, A. A. and Chubarova, H. E. and Shatunova, M. V. and
Rivin, G. S. and Tarasova, Tatiana Aleksandrova and Makshtas, A.
P. and Muskatel, H.",
affiliation = "{Lomonosov Moscow State University} and {Lomonosov Moscow State
University} and {Hydrometcenterof Russia} and {Lomonosov Moscow
State University} and {Instituto Nacional de Pesquisas Espaciais
(INPE)} and {Arctic\& Antarctic Research Institute} and {Israel
Meteorological Service}",
title = "Radiative effect of different aerosol types in clear sky
conditions according to COSMO-Ru model",
journal = "Proceedings of SPIE",
year = "2018",
volume = "10833",
number = "1083308",
note = "{24th International Symposium on Atmospheric and Ocean Optics:
Atmospheric Physics; Tomsk; Russian Federation; 2 July 2018
through 5 July 2018.}",
keywords = "aerosol, radiation transfer, model COSMO.",
abstract = "The radiation effects of aerosol in clear sky under continental
aerosol (Meteorological Observatory of MSU (Russia), Lindenberg
Observatory (Germany)), over semi-desert areas (Israel) and Arctic
district at the Tiksi International Hydrometeorological (Russia)
observatory were estimated using the mesoscale COSMO-Ru model. The
effect of aerosol on the surface air temperature is also was
investigated. For the present study we use the aerosol dataset
from CIMEL (AERONET) sun photometer measurements and the data of
shortwave radiation components based on reliable instruments
Kipp\&Zonen. The application of the new MACv2 climatology
radiation model provides the annual average relative error of the
total global radiation which does not exceed 25 W/m2 . We suggest
that in clear sky conditions the sensitivity of air temperature at
2 meters to aerosol in all considered geographical areas lie
within 0.9°C per 100 W/m2 change in shortwave net radiation
changes.",
doi = "10.1117/12.2504299",
url = "http://dx.doi.org/10.1117/12.2504299",
language = "en",
targetfile = "1083308.pdf",
urlaccessdate = "04 jun. 2024"
}