Over the weekend, the earth was hit by a solar storm whose origins have so far confounded astronomers. Solar storms are major disturbances that occur due to explosions on the surface of the Sun known as solar flares, which caused by tangling, crossing or reorganizing of magnetic field lines. Within minutes from exploding, these flares heat solar material to millions of degrees in temperature and produce a burst of radiation across the electromagnetic spectrum, from radio waves to X-rays and gamma rays.
Experts believe that this geomagnetic storm, which causes a temporary disturbance of the Earth’s magnetosphere was brought about by an unexpected Coronal Mass Ejection that was embedded in the solar wind.
Experts at Spaceweather.com wrote: “A minor G1-class geomagnetic storm broke out around midnight (UT) on June 25-26.
“Forecasters aren’t sure why. The prime suspect is an unexpected CME embedded in the solar wind.
“So far no auroras have been reported from the 6 hour storm.”
One of the most powerful forms of a solar storm, a CME occurs when the Sun ejects a cloud of charged particles and electromagnetic fluctuations from its atmosphere.
When CME is aimed at the Earth, one distinct effect observed is that the solar storm boosts the aurora borealis and australis, the natural light shows generated when particles from the solar wind excite atoms in Earth’s upper atmosphere, making them glow.
The solar storm that struck the Earth was classified as G1, which is minor and could result in weak power grid fluctuations and even some minor impacts on satellite communications.
Meanwhile, Space weather expert Dr Tamitha Skov tweeted: “Fast solar wind hits Earth!
“Expect unsettled to stormy conditions for the next 48-72 hrs.
“High latitude #aurora chasers should get good shows with sporadic views at mid-latitudes.
READ MORE: Solar storm warning: NASA on red alert as we face vast sunspot
“Amateur radio operators watch for minor disruptions & auroral propagation through #FieldDay weekend.”
Solar storms frequently generate stunning aurora light shows at higher latitudes by affecting the Earth’s magnetic field.
The aurora, sometimes known as the polar lights, are natural light shows caused by the solar wind disturbing the Earth’s magnetosphere.
Charged particles — mainly electrons and protons — precipitate into and excite the Earth’s upper atmosphere, causing it to glow.