The sun unleashed its first superpowerful flare of the year on Wednesday, and the intense eruption was aimed directly at Earth, space weather experts say. The monster X-class solar flare, the strongest category of sun storms possible, peaked at 12:22 p.m. AR12297 has fired off a number of medium-strength flares over the last few days.
The sun unleashed its first superpowerful flare of the year on Wednesday, and the intense eruption was aimed directly at Earth, space weather experts say.
The monster X-class solar flare, the strongest category of sun storms possible, peaked at 12:22 p.m. EDT on March 11, originating from a sunspot known as Active Region 12297 (AR12297). NASA’s Solar Dynamics Observatory captured stunning video of the huge X-class solar flare as it erupted.
AR12297 has fired off a number of medium-strength flares over the last few days. Wednesday’s event ratcheted things up a notch, causing an hour-long blackout in high-frequency radio communications over wide areas, according to scientists with the U.S. Space Weather Prediction Center (SWPC) in Boulder, Colorado. The SWPC is overseen by the National Oceanic and Atmospheric Administration.
“An R3 (Strong) Radio Blackout peaked at 1622 UTC (12:22pm EDT) today, March 11,” SWPC officials wrote in an online update. “This is yet another significant solar flare from Active Region 12297 as it marches across the solar disk. This is the largest flare the region has produced so far, after producing a slew of R1 (Minor) and R2 (Moderate) Radio Blackouts over the past few days.”
NASA’s Solar Dynamics Observatory captured an image of an X2.2 solar flare on March 11, 2015, seen as a bright flash of light on the left side of the sun.
The Wednesday flare registered as an X2.2 sun storm on the scale used to measure solar tempests. Scientists classify strong solar flares into three categories: C, M and X, with C being the weakest, M being mid-level and X the strongest. X flares are 10 times more powerful than M flares. X2 and X3 flares are twice and three times as potent, respectively, as X1 flares.
The sunspot AR12297 is visible in this image, taken by NASA’s Solar Dynamics Observatory on March 11, 2015.
Solar flares are often accompanied by coronal mass ejections (CMEs), enormous clouds of superheated plasma that streak through space at millions of miles per hour. While the radiation from a flare reaches Earth in just minutes, it typically takes CMEs several days to get here. Powerful Earth-directed CMEs can wreak havoc, causing geomagnetic storms that can disrupt power grids and satellite navigation.
It’s unclear at the moment if a CME is associated with Wednesday’s event. However, the SWPC has already issued a minor geomagnetic storm warning for Friday as a result of three CMEs the sun unleashed on March 9.
Have something to add? Share your comments on Facebook.