An artistic look at a coronal mass ejection launched towards Earth. The
image is based on data collected by the ESA/NASA SOHO space telescope
and comprises an extreme-ultraviolet image of the Sun’s disc (not to
scale) superimposed on an image of the stormy solar environment. The
scene has been processed using the running difference technique.
Solar science meets art in this unique portrait of a solar storm heading straight for Earth.
The image is based on data collected by the ESA/NASA SOHO space observatory during a coronal mass ejection, when a huge cloud of magnetised plasma was ejected from the Sun’s atmosphere and launched towards Earth.
The image shows an extreme-ultraviolet view of the solar disc superimposed on a wide-field view of the surrounding solar environment as the storm leaps away from the Sun.
Two particularly bright regions on the Sun’s face indicate active regions with looping magnetic fields. Towards the left a filament of dense, cool gas appears to snake its way across the surface.
As a result of the ‘running difference’ technique used to process the images, the scene creates a feeling of rapid change as the solar storm expands outwards on all sides of the Sun and races towards us.
The running difference technique takes sequential snapshots and compares them such that the strongest and most persistent features are isolated and highlighted.
Note that the solar disc is not to scale with the background image. SOHO images are usually shown with a gap of around 3 solar radii from the edge of the Sun’s disc, with an occulter blocking out the intense light from the Sun in order to reveal the faint details of the corona.
Coronal mass ejections like the one portrayed here blast away billions of tonnes of matter from the Sun at millions of kilometres per hour. By the time this particular event engulfed Earth two days later, the eruption was some 50 million kilometres wide.
This image featured in a SOHO ‘The Sun as Art’ portfolio in 2002.
ESA
Solar science meets art in this unique portrait of a solar storm heading straight for Earth.
The image is based on data collected by the ESA/NASA SOHO space observatory during a coronal mass ejection, when a huge cloud of magnetised plasma was ejected from the Sun’s atmosphere and launched towards Earth.
The image shows an extreme-ultraviolet view of the solar disc superimposed on a wide-field view of the surrounding solar environment as the storm leaps away from the Sun.
Two particularly bright regions on the Sun’s face indicate active regions with looping magnetic fields. Towards the left a filament of dense, cool gas appears to snake its way across the surface.
As a result of the ‘running difference’ technique used to process the images, the scene creates a feeling of rapid change as the solar storm expands outwards on all sides of the Sun and races towards us.
The running difference technique takes sequential snapshots and compares them such that the strongest and most persistent features are isolated and highlighted.
Note that the solar disc is not to scale with the background image. SOHO images are usually shown with a gap of around 3 solar radii from the edge of the Sun’s disc, with an occulter blocking out the intense light from the Sun in order to reveal the faint details of the corona.
Coronal mass ejections like the one portrayed here blast away billions of tonnes of matter from the Sun at millions of kilometres per hour. By the time this particular event engulfed Earth two days later, the eruption was some 50 million kilometres wide.
This image featured in a SOHO ‘The Sun as Art’ portfolio in 2002.
ESA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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