An Alternating of Solar Radio Burst Type III and IV of Thermal and Non-Thermal Plasma Radiation
Languages of publication
A preliminary correlation study of the solar burst type III with a type Iv solar burst of has been made. On the basis of this study and in combination with the observation in radio emission, an interpretation of the mechanism of the occurrence of this event has been proposed. We have noted that an individual type III burst also can be observed at 13:54-13:58 UT from 500 MHz. Based on 3 days observation beginning from 31st March 2015, the solar activity is gradual increased. The highest solar flare can be observed is only a class of M8 flare. There was a CMEs event that directed to the Earth is detected. From the selected event, although theoretically solar radio burst type III is alternating with type IV solar burst. This huge explosion generated the M-class flare which can affect the Earth and satellites. The solar wind velocity recorded is 384.2 km/second while the density of protons is 3.6 protons/cm3. The total magnetic field during this event also quite big which is 4.6nT. The alternating of solar burst type III and IV would probably depends on the tendencies to form the CMEs event. The morphology of thermal and non-thermal ﬂare plasma is of particular signiﬁcance because it holds many important signatures of the energy release process.
- School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology, 40450, Shah Alam, Selangor, Malaysia, email@example.com
- School of Physics and Material Sciences, Faculty of Sciences, MARA University of Technology, 40450, Shah Alam, Selangor, Malaysia
- Academy of Contemporary Islamic Studies (ACIS), MARA University of Technology, 40450, Shah Alam, Selangor, Malaysia
- Institute of Astronomy, Wolfgang-Pauli-Strasse 27, Building HIT, Floor J, CH-8093 Zurich, Switzerland
-  M.R. Kundu, Solar Radio Astronomy, John Wiley, 1965.
-  Z. Hamidi, Z. Abidin, Z. Ibrahim, C. Monstein, N. Shariff, M. Sabaghi, The Beginning Impulsive of Solar Burst Type IV Radio Emission Detection Associated with M Type Solar Flare, International Journal of Fundamental Physical Sciences 2 (2012).
-  Z. Hamidi, N. Shariff, C. Monstein, An Observation of an Inverted Type U Solar Burst Due to AR1429 Active Region, International Letters of Chemistry, Physics and Astronomy (2014).
-  Z. Hamidi, Z. Abidin, Z. Ibrahim, C. Monstein, N. Shariff, Signal Detection Performed by Log Periodic Dipole Antenna (LPDA) in Solar Monitoring, International Journal of Fundamental Physical Sciences (2012).
-  Z. Hamidi, Z. Abidin, Z. Ibrahim, C. Monstein, N. Shariff, Combined Investigations of Solar Bursts Type III and V, International Journal Physical Fundamental Sciences (2012).
-  Z. Hamidia, Z. Abidina, Z. Ibrahima, N. Shariffa, C. Monsteinc, Observations of Coronal Mass Ejections (CMEs) at Low Frequency Radio Region on 15th April 2012, AIP Conf. Proc 1528 (2013) 55-60.
-  Z. Hamidi, Probability of Solar Flares Turn Out to Form a Coronal Mass Ejections Events Due to the Characterization of Solar Radio Burst Type II and III, International Letters of Chemistry, Physics and Astronomy 16 (2014) 85.
-  N. Gopalswamy, N. Nitta, P.K. Manoharan, A. Raoult, M. Pick, X-ray and radio manifestations of a solar eruptive event, Astronomy and Astrophysics 347 (1999) 684-695.
-  Z. Hamidi, N. Shariff, F.Z. Ulum, Z. Abidin, Z. Ibrahim, Time Series Analysis of Variance of Sunspots in January till September 2010 and Correlation with Sunspots Areas, International Journal of Astronomy 1 (2012) 101-104.
-  J.P. Wild , Smerd S.F., and Weiss, A.A., Solar Burst, Ann. Rev. Astron. Astrophysics 1 (1963) 291-366.
-  G.A. Dulk, Type III solar radio bursts at long wavelengths, in: R. Stone, E. Weiler, M. Goldstein (Eds.), Geophys. Monogr., 2000.
-  T. Takakura, Pub. Astron. Soc. Japan 12 (1960).
-  A.F. Kuckes, and Sudan, R.N Sol. Phys. 17 (1971).
-  K. Kai, Sol. Phys. 11 (1970).
-  G. B.a.L. Gelfreikh, B. I., Soviet Astron. 23 (1979).
-  P. Lantos, Sol. Phys. 22 (1972).
-  A. Vourlidas, Bastian, T. S., Nitta, N., Aschwanden, M. J., Sol. Phys. 163 (1996).
-  E.Y. Zlotnik, Soviet Astron. 12 (1968).
-  V.V. Zheleznyakov, Radio Emission of the Sun and Planets (1970).
-  Z. Hamidi, N. Shariff, C. Monstein, Disturbances of Solar Eruption From Active Region AR1613, (2014).
-  Z. Hamidi, N. Shariff, Detailed Investigation of a Moving Solar Burst Type IV Radio Emission in on Broadband Frequency, International Letters of Chemistry, Physics and Astronomy 7 (2014) 30-36.
-  H. Aurass, Coronal Physics from Radio and Space Observations, in: I.G. Trottet (Ed.), Lecture Notes in Physics, Springer, Berlin, 1997.
-  A.D. Fokker, Type IV Solar Radio Emission, Space Science Reviews 2 (1963) 70-90.
-  C.W. Young, C.L. Spencer, G.E. Moreton, J.A. and Roberts, Astrophys. J. 133 (1961).
-  Ellis, Australian J.Phys. 22 (1969) 167.
-  D.J. McLean, A. N.R. Labrum, Solar Radiophysics, Cambridge University Press, Cambridge, 1985.
-  Z.S. Hamidi, Z. Ibrahim, Z. Abidin, M. Maulud, N. Radzin, N. Hamzan, N. Anim, N. Shariff, Designing and Constructing Log Periodic Dipole Antenna to Monitor Solar Radio Burst: e-Callisto Space Weather, International Journal of Applied Physics and Mathematics 2 (2011) 3.
-  Z.S. Hamidi, S. Chumiran, A. Mohamad, N. Shariff, Z. Ibrahim, N. Radzin, N. Hamzan, N. Anim, A. Alias, Effective temperature of the sun based on log periodic dipole antenna performance in the range from 45 Mhz to 870 Mhz, American Journal of Modern Physics 2 (2013) 4.
-  Z.S. Hamidi, Z. Abidin, Z. Ibrahim, N. Shariff, C. Monstein, Modification and Performance of Log Periodic Dipole Antenna, International Journal of Engineering Research and Development 3 (2012) 36-39.
-  Z.S. Hamidi, Z. Abidin, Z. Ibrahim, C. Monstein, N. Shariff, Signal Detection Performed by Log Periodic Dipole Antenna (LPDA) in Solar Monitoring, International Journal of Fundamental Physical Sciences 2 (2012) 32-34.
-  Z.S.Hamidi, N.M.Anim, N. N.S.Hakimi, N.Hamzan, A.Mokhtar, N.Syukri, S.Rohizat, I.Sukma, Z.A. Ibrahim, Z.Z.Abidin, N.N.M.Shariff, C.Monstein, Application of Log Periodic Dipole Antenna (LPDA) in Monitoring Solar Burst at Low Region Frequencies Region International Journal of Fundamental Physical Sciences 2 (2012) 4.
-  Z.S.Hamidi, N.N.M. Shariff, Determination of Isotropic Source Spectral Power of the Log Periodic Dipole Antenna (LPDA), International Journal of Science and Mathematics 2 (2014) 3.
Publication order reference