Abstract
Radio frequency observations supplement optical studies and in some cases they are the only way of obtaining information on the physical conditions for radio waves and their propagation. Solar radio emission appears in two forms, “quiescent” and “sporadic.” Their distinctive features are well known. Solar radio observations at meter wavelengths (λ = 1.43 m, ν = 210 MHz) have been made at the Abastumani Astrophysical Observatory using a solar radio telescope throughout five solar cycles (since 1957). This article is a study of the long-term observations of solar radio bursts and sunspots. It is found that there is a correlation between the amplitudes of the radio bursts, the number of spots, and the regions of the spots.
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M. Gigolashvili, N. Ograpishvili, et al., Astrophysics 57, 408 (2014).
Yu. F. Yurovskii, Izv. Krym. Astrofiz. Observ. 106, 38 (2010).
Yu. F. Yurovskii, Izv. Krym. Astrofiz. Observ. 107, 84 (2011).
Yu. F. Yurovsky, 23-rd international Crimean Conference, 1116 (2013).
Yu. F. Yurovsky, Kinematics and Physics of Celestial Bodies 29, 301 (2013).
D. E. Innes, R. H. Kameron, et al., Astron. Astrophys. 431, 4 (2011).
O. S. Korolev, et al., in: Proc. of the Meeting of Sci. Commit. for Complex Problems in Radio Astronomy (1970), p. 83.
O. S. Korolev, Astron. zh. 52, 1247 (1975), [Soviet Astronomy 19, 747 (1976)].
K. Shibasaki, C. E. Alissandrakis, and S. Pohjolainen, Solar Phys. 273, 309 (2011).
P. Zucca, E. P. Carley, et al., Solar Phys. 280, 591 (2012).
O. S. Korolev, The Physics of Solar Activity [in Russian], Nauka, Moscow (1976), p. 192.
Sh. Makandarashvili, Byull. Abast. Astrofiz. Observ. 29, 47 (1962).
J. S. Hey, Nature, 157, 47 (1946).
J. L. Pawsey and R. N. Bracewll, in: Radio Astronomy, Clarendon Press, Oxford (1955), ch. 5.
J. L. Pawsey, R. Payne-Scott, and L. L. McCready, Nature 157, 158 (1946).
M. Ryle and D. D. Vonberg, Proc. Roy. Soc. 193, 98 (1948).
G. P. Chernov, Astron. Lett. 23, 949 (1997).
H. W. Dodson, Proc. IRE 46, 149 (1958).
A. D. Fokker, in: Solar System Radio Astronomy (1965), p. 171.
Sh. Makandarashvili, Byull. Abast. Astrofiz. Observ. 76, 193 (2003).
Sh. Makandarashvili, Bull. of the Georgian NAS 5, 51 (2011).
R. A. Greenkorn, Solar Phys. 280, 205 (2012).
R. A. Greenkorn, Solar Phys. 255, 301 (2009).
C. Kies, R. Rezaei, and W. Schmidt, Astron. Astrophys. 565, ID: A52, 10 (2014).
T. A. Schad and M. J. Penn, Solar Phys. 262, 19 (2010).
S. Zharkov, V. V. Zharkova, and S. S. Ipson, Solar Phys. 228, 377 (2005).
A. Solov’ev and E. Kirichek, Astrophys. Space Sci. 352, 23 (2014).
J. Kallunki and M. Uunila, International J. Astron. Astrophys. 4, 649 (2014).
J. Kallunki, N. Lavonen, E. Järvelä, and M. Uunila, Baltic Astron. 21, 255 (2012).
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Translated from Astrofizika, Vol. 59, No. 3, pp. 429-435 (August 2016).
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Makandarashvili, S., Oghrapishvili, N., Japaridze, D. et al. Relationship of Solar Radio Emission at λ=1.43m and Optical Processes in the Sun. Astrophysics 59, 383–388 (2016). https://doi.org/10.1007/s10511-016-9443-8
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DOI: https://doi.org/10.1007/s10511-016-9443-8