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Solar wind that blasts from sun may be driven by tiny plasma flares | News Fission

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Small-scale structures of solar wind emerging from a coronal hole on the sun

ESA & NASA/Solar Orbiter/EUI/Lakshmi Pradeep Chitta

The powerful solar wind may come from tiny jets of plasma. The solar wind is a barrage of charged particles, and how exactly those particles flow out from the sun has been under debate for decades – but with new high-resolution images, we might finally know.

The discovery was enabled by the Solar Orbiter spacecraft, which launched in 2020. Since then, it has captured some of the highest-resolution images of the sun we have ever been able to produce. Pradeep Chitta at the Max Planck Institute for Solar System Research in Germany and his colleagues examined these images to try to figure out how plasma can escape the sun.

They focused on dark splotches on the sun called coronal holes, which are regions where the sun’s magnetic field is open to space, allowing particles to escape. We knew that these holes had small plumes of plasma emerging from them, but the researchers spotted even smaller jets, called picoflare jets, that emit one-trillionth the amount of radiation of the most powerful solar flares.

“There are these little outpourings of material, not only in the plumes but everywhere,” says Chitta. “The surprising part is that even in these dark, seemingly inactive portions of the coronal hole we see these jets, and they seem to be the ones that are most important.”

The jets ranged from about 200 to 500 kilometres across, each blasting material out of the sun at speeds in excess of 100 kilometres per second, with the strongest ones located in dark areas away from the bigger plumes. The magnetic properties of coronal holes meant that the plasma in these jets leaked away into interplanetary space.

Previously, it was thought that whatever phenomenon was feeding the solar wind would have to be a steady, constant one. But there are enough of these tiny jets on the sun that even though each one is only active for about a minute at the most, together they could account for all of the plasma in the solar wind. “It’s like how rivers flow on Earth – there are little streams and creeks that flow from the mountaintops and eventually they meet and become this huge river,” says Chitta.

The properties of these small-but-mighty jets could also explain some strange structures astronomers have seen in the solar wind. They can be packed close together, so if two nearby jets have different speeds it could cause shear forces and instabilities, which could account for odd Z-shaped structures called magnetic switchbacks in the solar wind.


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