The Width of a Solar Coronal Mass Ejection and the Source of the Driving Magnetic Explosion: A Test of the Standard Scenario for CME Production

Autor:	Ronald L. Moore, Alphonse C. Sterling, Steven T. Suess
Rok vydání:	2007
Předmět:	Physics Solar flare Astrophysics::High Energy Astrophysical Phenomena Astronomy Astronomy and Astrophysics Field strength Plasmoid Astrophysics Corona law.invention Space and Planetary Science law Physics::Space Physics Coronal mass ejection Astrophysics::Solar and Stellar Astrophysics Magnetic cloud Interplanetary magnetic field Flare
Zdroj:	The Astrophysical Journal. 668:1221-1231
ISSN:	1538-4357 0004-637X
DOI:	10.1086/521215
Popis:	We show that the strength (B(sub F1are)) of the magnetic field in the area covered by the flare arcade following a CME-producing ejective solar eruption can be estimated from the final angular width (Final Theta(sub CME)) of the CME in the outer corona and the final angular width (Theta(sub Flare)) of the flare arcade: B(sub Flare) approx. equals 1.4[(Final Theta(sub CME)/Theta(sub Flare)] (exp 2)G. We assume (1) the flux-rope plasmoid ejected from the flare site becomes the interior of the CME plasmoid; (2) in the outer corona (R > 2 (solar radius)) the CME is roughly a "spherical plasmoid with legs" shaped like a lightbulb; and (3) beyond some height in or below the outer corona the CME plasmoid is in lateral pressure balance with the surrounding magnetic field. The strength of the nearly radial magnetic field in the outer corona is estimated from the radial component of the interplanetary magnetic field measured by Ulysses. We apply this model to three well-observed CMEs that exploded from flare regions of extremely different size and magnetic setting. One of these CMEs was an over-and-out CME, that is, in the outer corona the CME was laterally far offset from the flare-marked source of the driving magnetic explosion. In each event, the estimated source-region field strength is appropriate for the magnetic setting of the flare. This agreement (1) indicates that CMEs are propelled by the magnetic field of the CME plasmoid pushing against the surrounding magnetic field; (2) supports the magnetic-arch-blowout scenario for over-and-out CMEs; and (3) shows that a CME's final angular width in the outer corona can be estimated from the amount of magnetic flux covered by the source-region flare arcade.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::1cfb38eb8de13ea12a84acdc8f8e89cb https://doi.org/10.1086/521215 Zobrazit plný text záznamu