2 research outputs found
First Perihelion of EUI on the Solar Orbiter mission
Context. The Extreme Ultraviolet Imager (EUI), onboard Solar Orbiter consists
of three telescopes: the two High Resolution Imagers in EUV (HRIEUV) and in
Lyman-{\alpha} (HRILya), and the Full Sun Imager (FSI). Solar Orbiter/EUI
started its Nominal Mission Phase on 2021 November 27. Aims. EUI images from
the largest scales in the extended corona off limb, down to the smallest
features at the base of the corona and chromosphere. EUI is therefore a key
instrument for the connection science that is at the heart of the Solar Orbiter
mission science goals. Methods. The highest resolution on the Sun is achieved
when Solar Orbiter passes through the perihelion part of its orbit. On 2022
March 26, Solar Orbiter reached for the first time a distance to the Sun close
to 0.3 au. No other coronal EUV imager has been this close to the Sun. Results.
We review the EUI data sets obtained during the period 2022 March-April, when
Solar Orbiter quickly moved from alignment with the Earth (2022 March 6), to
perihelion (2022 March 26), to quadrature with the Earth (2022 March 29). We
highlight the first observational results in these unique data sets and we
report on the in-flight instrument performance. Conclusions. EUI has obtained
the highest resolution images ever of the solar corona in the quiet Sun and
polar coronal holes. Several active regions were imaged at unprecedented
cadences and sequence durations. We identify in this paper a broad range of
features that require deeper studies. Both FSI and HRIEUV operate at design
specifications but HRILya suffered from performance issues near perihelion. We
conclude emphasising the EUI open data policy and encouraging further detailed
analysis of the events highlighted in this paper
First perihelion of EUI on the Solar Orbiter mission
International audienceContext. The Extreme Ultraviolet Imager (EUI) on board Solar Orbiter consists of three telescopes: the two High Resolution Imagers, in EUV (HRIEUV) and in Lyman-α (HRILya), and the Full Sun Imager (FSI). Solar Orbiter/EUI started its Nominal Mission Phase on 2021 November 27. Aims. Our aim is to present the EUI images from the largest scales in the extended corona off-limb down to the smallest features at the base of the corona and chromosphere. EUI is therefore a key instrument for the connection science that is at the heart of the Solar Orbiter mission science goals. Methods. The highest resolution on the Sun is achieved when Solar Orbiter passes through the perihelion part of its orbit. On 2022 March 26, Solar Orbiter reached, for the first time, a distance to the Sun close to 0.3 au. No other coronal EUV imager has been this close to the Sun. Results. We review the EUI data sets obtained during the period 2022 March- April, when Solar Orbiter quickly moved from alignment with the Earth (2022 March 6), to perihelion (2022 March 26), to quadrature with the Earth (2022 March 29). We highlight the first observational results in these unique data sets and we report on the in-flight instrument performance. Conclusions. EUI has obtained the highest resolution images ever of the solar corona in the quiet Sun and polar coronal holes. Several active regions were imaged at unprecedented cadences and sequence durations. We identify in this paper a broad range of features that require deeper studies. Both FSI and HRIEUV operated at design specifications, but HRILya suffered from performance issues near perihelion. We conclude by emphasizing the EUI open data policy and encouraging further detailed analysis of the events highlighted in this paper