2019
DOI: 10.1007/s11207-019-1512-9
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Properties of High-Energy Solar Particle Events Associated with Solar Radio Emissions

Abstract: We have analysed 58 high-energy proton events and 36 temporally related nearrelativistic electron events from the years 1997 -2015 for which the velocity dispersion analysis of the first-arriving particles gave the apparent path lengths between 1 and 3 AU. We investigated the dependence of the characteristics of the proton events on the associations of type II, III, and IV radio bursts. We also examined the properties of the soft X-ray flares and coronal mass ejections associated with these events. All proton … Show more

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Cited by 16 publications
(20 citation statements)
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“…Radio bursts of types II and IV are prominent indicators of the formation of shocks in the Heliosphere (Zimovets & Sadykov 2015), and, together with type III radio bursts, are valuable characteristics for SEP forecasts (Winter & Ledbetter 2015;Miteva et al 2017;Ameri et al 2019;Bain et al 2019;Kalaivani et al 2020). Therefore, information about such radio bursts is essential to consider for forecast development.…”
Section: Records Of Radio Burstsmentioning
confidence: 99%
“…Radio bursts of types II and IV are prominent indicators of the formation of shocks in the Heliosphere (Zimovets & Sadykov 2015), and, together with type III radio bursts, are valuable characteristics for SEP forecasts (Winter & Ledbetter 2015;Miteva et al 2017;Ameri et al 2019;Bain et al 2019;Kalaivani et al 2020). Therefore, information about such radio bursts is essential to consider for forecast development.…”
Section: Records Of Radio Burstsmentioning
confidence: 99%
“…These delays have been attributed to either the expansion properties of the acceleration region or to the time required for the particles to diffuse (Kollhoff et al 2021). In this regard, the release of protons and electrons is shown to be simultaneous in most of the SEP events, and both species are delayed from the start of the type III emission (Kouloumvakos et al 2015;Xie et al 2016;Ameri et al 2019). This seems to be the case at least for events where the location of magnetic connections to the observers is >90 • from the flare site.…”
Section: Introductionmentioning
confidence: 99%
“…A beam of high-energy particles moving in a dense thermal plasma leads to radio emission at the fundamental plasma frequency and its second harmonic (Benz 2002;Zheleznyakov 1996, and references therein). The characteristic radio bursts typically associated with impulsive and gradual particle beams are called type III and type II bursts, respectively (Ameri et al 2019). The unique diagnostic value of radio bursts of type II and type III lies in the fact that the ambient plasma frequency must monotonically decrease as the particle beam moves radially outward from the flare site on an unbound trajectory.…”
Section: Introductionmentioning
confidence: 99%