Inter-planetary type-IV solar radio bursts: A comprehensive catalog and statistical results

Decameter hectometric (DH; 1-14 MHz) type-IV radio bursts are produced by flare-accelerated electrons trapped in post-flare loops or the moving magnetic structures associated with the CMEs. From a space weather perspective, it is important to systematically compile these bursts, explore their spectr...

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Veröffentlicht in:	arXiv.org 2024-07
Hauptverfasser:	Mohan, Atul, Gopalswamy, Nat, Kumari, Anshu, Akiyama, Sachiko, Sindhuja, G
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Schlagworte:	Coronagraphs Directivity Line of sight Physics - Earth and Planetary Astrophysics Physics - Solar and Stellar Astrophysics Physics - Space Physics Plasma waves Solar radio bursts Spacecraft Spectrometry White light
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description	Decameter hectometric (DH; 1-14 MHz) type-IV radio bursts are produced by flare-accelerated electrons trapped in post-flare loops or the moving magnetic structures associated with the CMEs. From a space weather perspective, it is important to systematically compile these bursts, explore their spectro-temporal characteristics, and study the associated CMEs. We present a comprehensive catalog of DH type-IV bursts observed by the Radio and Plasma Wave Investigation (WAVES) instruments onboard Wind and STEREO spacecraft, covering the period of white-light CME observations by the Large Angle and Spectrometric Coronagraph (LASCO) onboard the SOHO mission between November 1996 and May 2023. The catalog has 139 bursts, of which 73% are associated with a fast (>900 km/s) and wide (>60$^o$) CME, with a mean CME speed of 1301 km/s. All DH type-IV bursts are white-light CME-associated, with 78% of the events associated with halo CMEs. The CME source latitudes are within $\pm$45$^o$. 77 events had multi-vantage point observations from different spacecraft, letting us explore the impact of line of sight on the dynamic spectra. For 48 of the 77 events, there was good data from at least two spacecraft. We find that, unless occulted by nearby plasma structures, a type-IV burst is best viewed when observed within $\pm$60$^o$ line of sight. Also, the bursts with a duration above 120 min, have source longitudes within $\pm$60$^o$. Our inferences confirm the inherent directivity in the type-IV emission. Additionally, the catalog forms a sun-as-a-star DH type-IV burst database.
doi_str_mv	10.48550/arxiv.2406.00194
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subjects	Coronagraphs Directivity Line of sight Physics - Earth and Planetary Astrophysics Physics - Solar and Stellar Astrophysics Physics - Space Physics Plasma waves Solar radio bursts Spacecraft Spectrometry White light
title	Inter-planetary type-IV solar radio bursts: A comprehensive catalog and statistical results
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