2018
DOI: 10.31401/sungeo.2018.02.04
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Solar radio bursts: Implications to the origin of in situ particles

Abstract: The significance of the solar radio burst signatures for the solar energetic particle (SEP) classification is investigated in the current report. The solar radio bursts associated with the proton-producing solar flares and coronal mass ejections are usually of types II, III and IV. Based on the solar radio burst occurrences in different wavelength ranges, several categories for the SEP origin are adopted. This study evaluates the statistical differences in the flare and CME event samples related to each of the… Show more

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Cited by 2 publications
(2 citation statements)
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“…Fixes SEP intensity levels (e.g., large SEP events) also introduces a bias when performing correlation coefficients, namely towards reduced correlation with flare class and enhanced correlation with CME speed. This could be one of the explanation of the reported differences in correlation coefficients by earlier works (see comparison done in [38]). Other reasons include different identifications for the solar origin (flares/CMEs) of the same proton event, energy dependence effect (see trends found by [10]), different flare/CME databases used.…”
Section: Summary and Discussionmentioning
confidence: 68%
“…Fixes SEP intensity levels (e.g., large SEP events) also introduces a bias when performing correlation coefficients, namely towards reduced correlation with flare class and enhanced correlation with CME speed. This could be one of the explanation of the reported differences in correlation coefficients by earlier works (see comparison done in [38]). Other reasons include different identifications for the solar origin (flares/CMEs) of the same proton event, energy dependence effect (see trends found by [10]), different flare/CME databases used.…”
Section: Summary and Discussionmentioning
confidence: 68%
“…Traditionally solar energetic particle events have been divided into two classes of impulsive and gradual events (Cane, McGuire, and von Rosenvinge, 1986). Cane, Richardson, and von Rosenvinge (2010) and more recently Kim et al (2014Kim et al ( , 2015, Gopalswamy et al (2015Gopalswamy et al ( , 2016bGopalswamy et al ( , 2017, Miteva (2018) have presented divisions of SEP events in types or groups deviating from this traditional classification. Our Category 1 events are "impulsive" in the sense that they have high intensity rise rates, short rise times, the protons are released low in the corona, the events originate from magnetically well-connected regions, and are associated with short-duration X-ray flares.…”
Section: Time-of-maximum Energy Spectramentioning
confidence: 99%