Investigation on a Broken Solar Burst Type II during High Activities in AR1613 on 13th November 2012

Hamidi, Z. S.; Shariff, N. N. M.; Monstein, C.; Zulkifli, W. N. A. W.; Ibrahim, M. B.; Arifin, N. S.; Amran, N. A.

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Tytuł artykułu

Investigation on a Broken Solar Burst Type II during High Activities in AR1613 on 13th November 2012

Autorzy

Hamidi Z. S. , Shariff N. N. M. , Monstein C. , Zulkifli W. N. A. W. , Ibrahim M. B. , Arifin N. S. , Amran N. A.

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The present article is an attempt to analyze the solar burst Type II observations based on solar flare and Coronal Mass Ejections (CMEs) events. We choose an intriguing type II radio burst with a velocity of 1193 kms-1 that occurred on 2012 November 13 at 2:04:20 UT. In this case, the study of solar radio burst type III is of paramount importance because of the fact that it helps to gain an insight of generation mechanisms of solar flare and Coronal Mass Ejections (CMEs) phenomena. Here, we have got a reasonably clear idea of the various forms under which the type III continuum emission may appear and potentially form a type II burst. However, in this case, the Type II solar burst only successfully forms a fundamental structure within the first few minute period, but broken suddenly before evolve a harmonic structure. This phenomenon is very interesting to be tackled and study. How the burst suddenly broken is still ongoing research seems the event is very rare and hard to be proved. There are a few questions that cause this unique situation which related to: (i) the intensity and duration of type III burst which also related to the classification of solar flare (ii) the probabilities CMEs to occur during that time and also the factor of the total amount of massive burst that exploded, Thus, we can conclude that the solar burst type III event still tells us an enigmatic characteristic from time to time due to the relationship of energetic particles and streams of particles with coronal magnetic fields and the pattern of Sun activity due to the 24th solar cycle. It might an interesting to study in detail the main factor that caused the Type II solar burst broken. Indirectly, it might because of the very intense of solar flares that make the percentage of energy of solar flare become more dominant rather than the acceleration of particles through the Coronal Mass Ejections. Thus, we realize that the potential energy during this event is higher than the kinetic energy of the particles.

Słowa kluczowe

sun low frequency solar radio burst type II type III e-CALLISTO

Wydawca

Przedsiębiorstwo Wydawnictw Naukowych "DARWIN"

Czasopismo

International Letters of Chemistry, Physics and Astronomy

Rocznik

2014

Tom

Vol. 9

Strony

8--15

Opis fizyczny

Bibliogr. 32 poz., rys., zdj.

Twórcy

autor

Hamidi Z. S.

zetysh@salam.uitm.edu.my

School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology

autor

Shariff N. N. M.

Academy of Contemporary Islamic Studies (ACIS), MARA University of Technology

autor

Monstein C.

Institute of Astronomy, Wolfgang-Pauli-Strasse 27, Building HIT, Floor J, CH-8093 Zurich, Switzerland

autor

Zulkifli W. N. A. W.

School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology

autor

Ibrahim M. B.

School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology

autor

Arifin N. S.

School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology

autor

Amran N. A.

School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology

Bibliografia

[1] M. R. Kundu, Solar Radio Astronomy, John Wiley, 1965.
[2] N. Gopalswamy, P. Makela, H. Xie, S. A. Y. Akiyama, CME interactions with coronal holes and their interplanetary consequences, J. Geophys. Res. (2009a).
[3] N. Gopalswamy, N. Nitta, P. K. Manoharan, A. Raoult, M. Pick, Astronomy and Astrophysics 347 (1999) 684-695.
[4] R. Payne-Scott, D. E. Yabsley, J. G. Bolton, Nature 160 (1947) 256-257.
[5] A. Boischot, C. R. Acad. Sci. 244 (1957) 1326.
[6] J. P. Wild, Smerd S. F., Weiss A. A., Ann. Rev. Astron. Astrophysics 1 (1963) 291-366.
[7] G. A. Dulk, Type III solar radio bursts at long wavelengths, in: R. Stone, E. Weiler, M. Goldstein (Eds.), Geophys. Monogr., 2000.
[8] T. Takakura, Pub. Astron. Soc. Japan 12 (1960).
[9] A. F. Kuckes, R. N. Sudan, Sol. Phys. 17 (1971) 194.
[10] K. Kai, Sol. Phys. 11 (1970).
[11] G. B. Gelfreikh, Soviet Astron. 23 (1979).
[12] P. Lantos, Sol. Phys. 22 (1972).
[13] A. Vourlidas, Bastian T. S., Nitta N., Aschwanden M. J., Sol. Phys. 163 (1996).
[14] E. Y. Zlotnik, Soviet Astron. 12 (1968).
[15] V. V. Zheleznyakov, Radio Emission of the Sun and Planets (1970).
[16] D. E. K. Gary, C. U., Solar and Space Weather Radiophysics, Current Status and Future Developments Dordrecht: Kluwer, 2004.
[17] Z. S. Hamidi, Z. Ibrahim, Z. Abidin, M. Maulud, N. Radzin, N. Hamzan, N. Anim, N. Shariff, International Journal of Applied Physics and Mathematics 2 (2012) 3.
[18] Z. S. Hamidi, S. Chumiran, A. Mohamad, N. Shariff, Z. Ibrahim, N. Radzin, N. Hamzan, N. Anim, A. Alias, American Journal of Modern Physics 2 (2013) 4.
[19] Z. S. Hamidi, Z. Abidin, Z. Ibrahim, N. Shariff, C. Monstein, International Journal of Engineering Research and Development 3 (2012) 3.
[20] Z. S.Hamidi, Z. Abidin, Z. Ibrahim, C. Monstein, N. Shariff, International Journal of Fundamental Physical Sciences 2 (2012) 32-34.
[21] Z. S. Hamidi, et al., International Journal of Fundamental Physical Sciences 2 (2012) 4.
[22] Z. S. Hamidi, N. N. M. Shariff, International Journal of Science and Mathematics 2 (2014) 3.
[23] Z. S. Hamidi, Z. Abidin, Z. Ibrahim, N. Shariff, Indication of radio frequency interference (RFI) sources for solar burst monitoring in Malaysia, ICPAP 2011, AIP Publisher, Indonesia, 2012, pp. 6.
[24] Z. S. Hamidi, N. N. M. Shariff, C. Monstein, The International Journal of Engineering 1 (2012) 3.
[25] Z. S. Hamidi, N. Shariff, Z. Abidin, Z. Ibrahim, C. Monstein, Middle-East Journal of Scientific Research 12 (2012) 6.
[26] Z. S. Hamidi, N. N. M. Shariff, R. Umar, Malaysia Thailand Journal of Physics 3 (2012) 6.
[27] [22] Z. S. Hamidi, N. N. M. Shariff, International Letters of Chemistry, Physics and Astronomy 5 (2014) 32-42.
[28] Z. S. Hamidi, N. N. M. Shariff, International Letters of Chemistry, Physics and Astronomy 5 (2014) 43-49.
[29] Z. S. Hamidi, N. N. M. Shariff, International Letters of Chemistry, Physics and Astronomy 7 (2014) 21-29.
[30] Z. S. Hamidi, N. N. M. Shariff, International Letters of Chemistry, Physics and Astronomy 7 (2014) 30-36.
[31] Z. S. Hamidi, N. N. M. Shariff, C. Monstein, Z. A. Ibrahim, International Letters of Chemistry, Physics and Astronomy 7 (2014) 37-44.
[32] Z. S. Hamidi, et.al., International Letters of Chemistry, Physics and Astronomy 8 (2014) 13-19.

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