The Astrophysical Journal Letters (Jan 2024)

Radio Signature of the Strong Compression between a Streamer and a Coronal Hole Boundary

  • E. Aguilar-Rodriguez,
  • A. Vourlidas,
  • P. Corona-Romero,
  • C. Monstein,
  • W. D. Reeve,
  • E. Romero-Hernandez,
  • E. Andrade-Mascote,
  • P. Villanueva-Hernandez,
  • I. A. Peralta-Mendoza,
  • J. E. Perez-Leon,
  • E. Perez-Tijerina

DOI
https://doi.org/10.3847/2041-8213/ad631b
Journal volume & issue
Vol. 970, no. 2
p. L35

Abstract

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We present evidence of the first detection of the radio signature at metric wavelengths of the strong compression between a helmet streamer (HS) and the boundary of a coronal hole (CH) using radio observations from the Callisto MEXICO-LANCE and ALASKA-HAARP systems and white-light observations obtained by the STEREO-A/COR1-COR2 coronagraphs. The event occurred very close to the Sun (∼3.4 solar radii) and produced an intense and unusually broad drifting radio feature at metric wavelengths after a downward-drifting band of emission related to a metric Type II radio burst. The compression is caused by the interaction between an expanding structure (coronal mass ejection/shock) and the HS against the CH boundary. Observations in white light show a sharp compressive feature that propagates radially outward, while STEREO-A/EUVI images show loop oscillations at the same position angle, indicating that the interaction occurs across a range of heights. The loop oscillations cease when the compressive front loses its sharp boundary. This transition indicates a reduction of the density compression at the front and the cessation of the radio emission.

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