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The Sun Unleashed the Strongest Solar Flare in Almost Five Years

The worst of this one will miss us, but it is a hint of what's to come.

Eric Mack Contributing Editor
Eric Mack has been a CNET contributor since 2011. Eric and his family live 100% energy and water independent on his off-grid compound in the New Mexico desert. Eric uses his passion for writing about energy, renewables, science and climate to bring educational content to life on topics around the solar panel and deregulated energy industries. Eric helps consumers by demystifying solar, battery, renewable energy, energy choice concepts, and also reviews solar installers. Previously, Eric covered space, science, climate change and all things futuristic. His encrypted email for tips is ericcmack@protonmail.com.
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Eric Mack
2 min read
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NASA's Solar Dynamics Observatory captured this image of a solar flare, which can be seen in the lower right. 

NASA/SDO

The sun unleashed a powerful side flare last week. The eruption came from a sunspot on the western limb of our local star, and represents the most powerful solar flare seen since 2017. 

NASA's Solar Dynamics Observatory observed the blast at 8:57 p.m. PT on Tuesday, April 19, causing a radio blackout for certain shortwave, aviation and other communications centered on Asia. 

The flare was classified as an X2.2. X-class flares are the strongest category measured by scientists, and higher numbers following the X represent an increase in the power of the eruption. NASA recorded a few X1 flares in the past year, but this is the strongest seen since the sun blasted off a pair of monster X-class flares, including an X9, in the second week of September  2017. 

The strongest flare ever observed was in excess of X28, in 2003. 

The latest explosion was accompanied by a coronal mass ejection, which is charged plasma that moves slower and can create gorgeous auroras when it collides with Earth's magnetic field. But because the eruption was located on the side of the sun from the perspective of Earth, those particles weren't aimed in our direction and won't be hitting our planet. 

The energy emitted by a flare, on the other hand, moves at the speed of light and propagates in all directions throughout the solar system, which is why it caused the radio blackout the same time the flare could be seen. 

The big blast is the latest indication our current solar cycle is heating up. Our star goes through regular periods of high sunspot and flare activity roughly every decade or so. We are currently building toward a peak of activity that will come around the middle of the 2020s. 

Our magnetosphere prevents the radioactive eruptions from harming life on the surface of Earth, but it does pose a risk to our satellites, communications systems, astronauts in space and even the electrical grid on the ground. 

Large-scale blackouts have been caused by flares in recent decades, but this is the first time we're approaching peak solar activity with thousands of new satellites in orbit. Earlier this year, SpaceX reported that a flare had essentially fried a number of its Starlink satellites.