The Astrophysical Journal (Jan 2023)

The Eruption of a Magnetic Flux Rope Observed by Solar Orbiter and Parker Solar Probe

  • David M. Long,
  • Lucie M. Green,
  • Francesco Pecora,
  • David H. Brooks,
  • Hanna Strecker,
  • David Orozco-Suárez,
  • Laura A. Hayes,
  • Emma E. Davies,
  • Ute V. Amerstorfer,
  • Marilena Mierla,
  • David Lario,
  • David Berghmans,
  • Andrei N. Zhukov,
  • Hannah T. Rüdisser

DOI
https://doi.org/10.3847/1538-4357/acefd5
Journal volume & issue
Vol. 955, no. 2
p. 152

Abstract

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Magnetic flux ropes are a key component of coronal mass ejections, forming the core of these eruptive phenomena. However, determining whether a flux rope is present prior to eruption onset and, if so, the rope’s handedness and the number of turns that any helical field lines make is difficult without magnetic field modeling or in situ detection of the flux rope. We present two distinct observations of plasma flows along a filament channel on 2022 September 4 and 5 made using the Solar Orbiter spacecraft. Each plasma flow exhibited helical motions in a right-handed sense as the plasma moved from the source active region across the solar disk to the quiet Sun, suggesting that the magnetic configuration of the filament channel contains a flux rope with positive chirality and at least one turn. The length and velocity of the plasma flow increased from the first to the second observation, suggesting evolution of the flux rope, with the flux rope subsequently erupting within ∼5 hr of the second plasma flow. The erupting flux rope then passed over the Parker Solar Probe spacecraft during its encounter (13), enabling in situ diagnostics of the structure. Although complex and consistent with the flux rope erupting from underneath the heliospheric current sheet, the in situ measurements support the inference of a right-handed flux rope from remote-sensing observations. These observations provide a unique insight into the eruption and evolution of a magnetic flux rope near the Sun.

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