Observing the evolution of the Sun's global coronal magnetic field over 8 months

Zihao Yang; Hui Tian; Steven Tomczyk; Xianyu Liu; Sarah Gibson; Richard J. Morton; Cooper Downs

doi:10.1126/science.ado2993

Observing the evolution of the Sun's global coronal magnetic field over 8 months

Zihao Yang
, Hui Tian
, Steven Tomczyk
, Xianyu Liu
, Sarah Gibson
, Richard J. Morton
, Cooper Downs

HAO Administrative Office

Peking University
National Center for Atmospheric Research
CAS - National Space Science Center
Solar Scientific LLC
University of Michigan, Ann Arbor
Northumbria University
Predictive Science Inc

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

The magnetic field in the Sun’s corona stores energy that can be released to heat plasma and drive solar eruptions. Measurements of the global coronal magnetic field have been limited to several snapshots. In this work, we present observations, using the Upgraded Coronal Multi-channel Polarimeter, that provide 114 magnetograms of the global corona above the solar limb spanning ~8 months. We determined the magnetic field distribution with altitude in the corona and monitored the evolution at different latitudes over multiple solar rotations. The field strength between 1.05 and 1.60 solar radii varies from <1 to ~20 gauss. A signature of active longitudes appears in the coronal magnetic field measurements. Coronal models are generally consistent with our observations, though they have larger discrepancies in high-latitude regions.

Original language	English
Pages (from-to)	76-82
Number of pages	7
Journal	Science
Volume	386
Issue number	6717
DOIs	https://doi.org/10.1126/science.ado2993
State	Published - Oct 4 2024

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title = "Observing the evolution of the Sun's global coronal magnetic field over 8 months",

abstract = "The magnetic field in the Sun{\textquoteright}s corona stores energy that can be released to heat plasma and drive solar eruptions. Measurements of the global coronal magnetic field have been limited to several snapshots. In this work, we present observations, using the Upgraded Coronal Multi-channel Polarimeter, that provide 114 magnetograms of the global corona above the solar limb spanning \textasciitilde{}8 months. We determined the magnetic field distribution with altitude in the corona and monitored the evolution at different latitudes over multiple solar rotations. The field strength between 1.05 and 1.60 solar radii varies from <1 to \textasciitilde{}20 gauss. A signature of active longitudes appears in the coronal magnetic field measurements. Coronal models are generally consistent with our observations, though they have larger discrepancies in high-latitude regions.",

author = "Zihao Yang and Hui Tian and Steven Tomczyk and Xianyu Liu and Sarah Gibson and Morton, \{Richard J.\} and Cooper Downs",

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doi = "10.1126/science.ado2993",

language = "English",

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T1 - Observing the evolution of the Sun's global coronal magnetic field over 8 months

AU - Yang, Zihao

AU - Tian, Hui

AU - Tomczyk, Steven

AU - Liu, Xianyu

AU - Gibson, Sarah

AU - Morton, Richard J.

AU - Downs, Cooper

PY - 2024/10/4

Y1 - 2024/10/4

N2 - The magnetic field in the Sun’s corona stores energy that can be released to heat plasma and drive solar eruptions. Measurements of the global coronal magnetic field have been limited to several snapshots. In this work, we present observations, using the Upgraded Coronal Multi-channel Polarimeter, that provide 114 magnetograms of the global corona above the solar limb spanning ~8 months. We determined the magnetic field distribution with altitude in the corona and monitored the evolution at different latitudes over multiple solar rotations. The field strength between 1.05 and 1.60 solar radii varies from <1 to ~20 gauss. A signature of active longitudes appears in the coronal magnetic field measurements. Coronal models are generally consistent with our observations, though they have larger discrepancies in high-latitude regions.

AB - The magnetic field in the Sun’s corona stores energy that can be released to heat plasma and drive solar eruptions. Measurements of the global coronal magnetic field have been limited to several snapshots. In this work, we present observations, using the Upgraded Coronal Multi-channel Polarimeter, that provide 114 magnetograms of the global corona above the solar limb spanning ~8 months. We determined the magnetic field distribution with altitude in the corona and monitored the evolution at different latitudes over multiple solar rotations. The field strength between 1.05 and 1.60 solar radii varies from <1 to ~20 gauss. A signature of active longitudes appears in the coronal magnetic field measurements. Coronal models are generally consistent with our observations, though they have larger discrepancies in high-latitude regions.

UR - https://www.scopus.com/pages/publications/85205605186

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DO - 10.1126/science.ado2993

M3 - Article

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SN - 0036-8075

VL - 386

SP - 76

EP - 82

JO - Science

JF - Science

IS - 6717

ER -

Observing the evolution of the Sun's global coronal magnetic field over 8 months

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