On Tuesday (July 23), Europe’s Solar Orbiter (SolO) spacecraft witnessed an extremely powerful X14 class solar flare erupt from the far side of the sun.
Although it was not the most powerful flare ever recorded, which was estimated at roughly a X45 back in 2003, solar flares of this magnitude can result in longer-lived radiation storms and even world-wide blackouts if they are directed at Earth. The X-class are the leaders on the classification scale, and blast out energy 10 times more powerful than M class flares, which is second on the list.
“From the estimated GOES class, it was the largest flare so far,” Samuel Krucker, the principal investigator for the Spectrometer and Telescope for Imaging X-rays (STIX) on SolO, shared told SpaceWeather.com. “Other large flares we’ve detected are from May 20, 2024 (X12) and July 17, 2023 (X10). All of these have come from the back side of the sun.”
As far as on the sun’s Earthside, the biggest flare that was recorded so far for this current cycle occurred on May 14, 2024, an X8.9, associated with the beastly sunspot that created the historic geomagnetic storm that led to worldwide auroras.
Accompanying the flare was an extremely large coronal mass ejection (CME), detected by NASA’s Solar and Heliospheric Observatory (SOHO). CMEs are bursts of plasma and magnetic field that erupt outward from the sun’s atmosphere. The magnetically charged plasma blast that accompanied the X-class flare on July 23 was not sent in our direction, but if it was, it could have been quite the solar storm.
Had this CME taken a path that would bring impacts to Earth, it could have brought quite the impacts to our planet. The viewing of the auroras could have been quite impressive, but on the concerning side, with such a dynamic blast of energetic particles whipped up and hurled our way, it could have threatened us with major technological problems or electrical blackouts similar to the event in 1989 that severely impacted the power grid in Quebec, according to SpaceWeather.com.