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Tuesday, November 29, 2022
Home The changes of a coronal cell region as solar rotation carries it across the solar disk as seen with NASA’s STEREO-B spacecraft. The camera is fixed on the region (panning with it) and shows the plumes changing to cells and back to plumes again — based on the observatory’s perspective — during the interval June 7th-14th, 2011. (Credit: NASA/STEREO/NRL) The changes of a coronal cell region as solar rotation carries it across the solar disk as seen with NASA's STEREO-B spacecraft. The camera is fixed on the region (panning with it) and shows the plumes changing to cells and back to plumes again -- based on the observatory's perspective -- during the interval June 7th-14th, 2011. (Credit: NASA/STEREO/NRL)

The changes of a coronal cell region as solar rotation carries it across the solar disk as seen with NASA’s STEREO-B spacecraft. The camera is fixed on the region (panning with it) and shows the plumes changing to cells and back to plumes again — based on the observatory’s perspective — during the interval June 7th-14th, 2011. (Credit: NASA/STEREO/NRL)

The changes of a coronal cell region as solar rotation carries it across the solar disk as seen with NASA's STEREO-B spacecraft. The camera is fixed on the region (panning with it) and shows the plumes changing to cells and back to plumes again -- based on the observatory's perspective -- during the interval June 7th-14th, 2011. (Credit: NASA/STEREO/NRL)

The changes of a coronal cell region as solar rotation carries it across the solar disk as seen with NASA’s STEREO-B spacecraft. The camera is fixed on the region (panning with it) and shows the plumes changing to cells and back to plumes again — based on the observatory’s perspective — during the interval June 7th-14th, 2011. (Credit: NASA/STEREO/NRL)

The locations of STEREO–A, STEREO–B and SDO relative to the sun and Earth in 2011. (Credit: NRL )