Get all your news in one place.
100’s of premium titles.
One app.
Start reading
Space
Space
Science
Daisy Dobrijevic

Colossal X-class solar flare suggests return of sunspot group that fueled May's epic auroras (video)

A huge fiery expulsion erupts from the sun. Large loops and swirls of bright light dance around the southeastern limb of the sun. .

The colossal sunspot group AR3664 responsible for the epic May 2024 solar storms and widespread auroras is back — well, almost.

Yesterday (May 27), a powerful X-class solar flare erupted from the sun's southeastern limb, peaking around 3:08 a.m. EDT (0708 GMT). 

Solar flares are energetic eruptions of electromagnetic radiation from the sun's surface that occur when magnetic energy accumulating in the solar atmosphere is released. They are categorized by size into lettered groups, with X-class being the most powerful. Within each class, numbers from 1-10 (and beyond for X-class flares) describe a flare's relative strength. The recent X-flare clocked in at an X-2.9 according to Spaceweatherlive.com 

Related: We may have just witnessed some of the strongest auroras in 500 years

But how do we know that the solar flare came from AR3664 if we can't yet 'see' the sunspot group?

Though sunspot group 3664 remains hidden from NASA's Solar Dynamics Observatory's view — scientists can track the sunspot's progress across the sun's far side by observing how it affects the sun's vibrations or seismic echoes, using helioseismology data. One full rotation of the sun takes 27 days. 

A map from spaceweather.com tracking the current location of AR3664 places it just beyond the sun's southeastern limb, where the X-flare originated. 

Considering AR3664's penchant for X-flares and that it had been observed in the vicinity of yesterday's explosive solar flare eruption, it seems a reasonable deduction that AR3664 is the culprit.

An X-2.9 solar flare erupts from the sun on May 27, 2024. (Image credit: NASA / SDO and the AIA, EVE, and HMI science teams / helioviewer.org)

This is exciting news for space weather enthusiasts and aurora chasers as AR3664 will turn to face Earth later in the week. The hyperactive sunspot group is the most active of the sun's current solar cycle and the recent X-flare could prove it's still up to its old tricks.

However, when AR3664 rotates back into view it will take on a new identity and no longer be known as AR3664. This is because although it's likely the returning region is AR3664, due to limited sunspot observations to track sunspots on the sun's far side, scientists cannot be certain this is the case. All sunspots rotating into view are therefore renamed. 

The monster sunspot AR3664, as seen by NASA's Solar Dynamics Observatory in May 2024. (Image credit: NASA/SDO and the AIA, EVE, and HMI science teams/helioviewer.org)

The recent X-flare on May 27 was also accompanied by a coronal mass ejection (CME) whereby plasma and magnetic field are expelled from the surface of the sun in explosive fashion. However, a NASA model shows the CME will not strike Earth.

The solar flare eruption also triggered shortwave radio blackouts across East Asia. Shortwave radio blackouts are common shortly after powerful solar flare eruptions due to the strong pulse of X-rays and extreme ultraviolet radiation emitted during these events. The radiation travels toward Earth at the speed of light and ionizes (gives an electrical charge to) the top of Earth's atmosphere when it reaches us. This ionization causes a higher-density environment for the high-frequency shortwave radio signals to navigate through to support communication over long distances. 

The radio waves that interact with electrons in the ionized layers lose energy due to colliding more frequently, and this can lead to radio signals becoming degraded or completely absorbed according to NOAA's Space Weather Prediction Center

Sign up to read this article
Read news from 100’s of titles, curated specifically for you.
Already a member? Sign in here
Related Stories
Top stories on inkl right now
Our Picks
Fourteen days free
Download the app
One app. One membership.
100+ trusted global sources.