Publication detail

The Double-bubble Coronal Mass Ejection of the 2020 December 14 Total Solar Eclipse

BOE, B. YAMASHIRO, B. DRUCKMÜLLER, M. HABBAL, S.

English title

The Double-bubble Coronal Mass Ejection of the 2020 December 14 Total Solar Eclipse

Type

journal article in Web of Science

Language

en

Original abstract

Total solar eclipses (TSEs) continue to provide an invaluable platform for exploring the magnetic topology of the solar corona and for studying dynamic events such as coronal mass ejections (CMEs)-with a higher spatial resolution over a larger spatially continuous extent than is possible to achieve with any other method at present. In this Letter, we present observations of the full extent of a "double-bubble" CME structure from the solar surface out to over 5 solar radii, as captured during the 2020 December 14 TSE. Its evolution through the corona was recorded from two observing sites separated by 13 minutes in their times of totality. The eclipse observations are complemented by a plethora of space-based observations including: Extreme Ultraviolet observations of the solar disk and low corona from SDO/AIA and STEREO-A/EUVI, white-light coronagraph observations from SOHO/LASCO-C2, radio from STEREO-A/WAVES and WIND/WAVES, and X-ray from GOES-16. We also characterize the magnetic field with a potential field source surface model. This CME event itself is of particular interest, as it demonstrates interactions between a prominence channel and an active region that led to the double-bubble structure. Despite the plethora of space-based observations, only the eclipse data are able to provide the proper context to connect these observations and yield a detailed study of this unique CME.

English abstract

Total solar eclipses (TSEs) continue to provide an invaluable platform for exploring the magnetic topology of the solar corona and for studying dynamic events such as coronal mass ejections (CMEs)-with a higher spatial resolution over a larger spatially continuous extent than is possible to achieve with any other method at present. In this Letter, we present observations of the full extent of a "double-bubble" CME structure from the solar surface out to over 5 solar radii, as captured during the 2020 December 14 TSE. Its evolution through the corona was recorded from two observing sites separated by 13 minutes in their times of totality. The eclipse observations are complemented by a plethora of space-based observations including: Extreme Ultraviolet observations of the solar disk and low corona from SDO/AIA and STEREO-A/EUVI, white-light coronagraph observations from SOHO/LASCO-C2, radio from STEREO-A/WAVES and WIND/WAVES, and X-ray from GOES-16. We also characterize the magnetic field with a potential field source surface model. This CME event itself is of particular interest, as it demonstrates interactions between a prominence channel and an active region that led to the double-bubble structure. Despite the plethora of space-based observations, only the eclipse data are able to provide the proper context to connect these observations and yield a detailed study of this unique CME.

Keywords in English

Solar corona, Coronal Mass Ejection

Released

01.06.2021

Publisher

IOP PUBLISHING LTD

Location

BRISTOL

ISSN

2041-8205

Volume

914

Number

2

Pages from–to

1–9

Pages count

9

BIBTEX


@article{BUT172286,
  author="Benjamin {Boe} and Bryan {Yamashiro} and Miloslav {Druckmüller} and Shadia Rifai {Habbal},
  title="The Double-bubble Coronal Mass Ejection of the 2020 December 14 Total Solar Eclipse",
  year="2021",
  volume="914",
  number="2",
  month="June",
  pages="1--9",
  publisher="IOP PUBLISHING LTD",
  address="BRISTOL",
  issn="2041-8205"
}