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Eruption and Interplanetary Evolution of a Stealthy Streamer-Blowout CME Observed by PSP at ∼0.5 AU

Sanchita Pal, B. J. Lynch, Simon Good, Erika Palmerio, Eleanna Asvestari, Jens Pomoell, M. L. Stevens, Emilia Kilpua

2022Frontiers in Astronomy and Space Sciences18 citationsDOIOpen Access PDF

Abstract

Streamer-blowout coronal mass ejections (SBO-CMEs) are the dominant CME population during solar minimum. Although they are typically slow and lack clear low-coronal signatures, they can cause geomagnetic storms. With the aid of extrapolated coronal fields and remote observations of the off-limb low corona, we study the initiation of an SBO-CME preceded by consecutive CME eruptions consistent with a multi-stage sympathetic breakout scenario. From inner-heliospheric Parker Solar Probe (PSP) observations, it is evident that the SBO-CME is interacting with the heliospheric magnetic field and plasma sheet structures draped about the CME flux rope. We estimate that 18 ± 11% of the CME’s azimuthal magnetic flux has been eroded through magnetic reconnection and that this erosion began after a heliospheric distance of ∼0.35 AU from the Sun was reached. This observational study has important implications for understanding the initiation of SBO-CMEs and their interaction with the heliospheric surroundings.

Topics & Concepts

PhysicsCoronal mass ejectionInterplanetary spaceflightHeliospheric current sheetSolar windSolar cycle 23Geomagnetic stormInterplanetary mediumAstronomyPopulationMagnetic cloudAstrophysicsFlux (metallurgy)Solar prominenceMagnetic fieldPlasmaNuclear physicsMetallurgyQuantum mechanicsSociologyDemographyMaterials scienceSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsStellar, planetary, and galactic studies
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