Solar flares erupt strongest radiation storm since 2017

It’s the sunspot region you just don’t want to leave!

Beastly sunspot AR3697 is making headlines again ahead of another outing. The sunspot region, formerly known as AR3664, produced the historic geomagnetic storm that led to May’s global auroras.

On Saturday (June 8), the sunspot released an M9.7 solar flare, the second strongest type on the classification scale. The explosion was powerful enough to produce the strongest radiation storm since 2017, according to NOAA’s Space Weather Prediction Center (SWPC). These types of events can pose a risk of impacting space launch operations and satellites, and can also disrupt shortwave radio signals.

A view of a solar flare erupting from the sun in the lower left of the image. (Image credit: NASA/SDO)

Solar flares are intense bursts of electromagnetic radiation that emanate from sunspots on the surface of our sun. They are classified into letter groups (X, M, C, B, and A) according to their size, with Class X flames being the most powerful. Within each of these classes, numbers from 1 to 10 (and beyond for Class X flares) indicate the relative strength of a flare. This means that M-class flames like this are 10 times weaker than X-class flames, but are 10 times stronger than C-class flames.


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Image Source : www.space.com

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