Several satellites, including NASA's new Solar Dynamics Observatory (SDO), recorded on Sunday a small solar flare erupting above sunspot 1092, the size of the Earth.
The satellites also recorded a large filament of cool gas stretching across the Sun's northern hemisphere also exploded into space.
The explosion, called a coronal mass ejection, was aimed directly towards Earth, which then sent a "solar tsunami" racing 93 million miles across space, the New Scientist reported.
When the violent cloud hits, which could be anytime now, it could spark aurorae in the skies around the poles and pose a threat to satellites, although not a severe one, it said.
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"These are two distinct phenomena but they are obviously related," said Len Culhane, a solar physicist at the Mullard Space Science Laboratory, University College London.
Experts said the wave of supercharged gas will likely reach the Earth on Tuesday, when it will buffet the natural magnetic shield protecting Earth.
It is likely to spark spectacular displays of the aurora or northern and southern lights.
"This eruption is directed right at us," said Leon Golub, of the Harvard-Smithsonian Centre for Astrophysics.
"It's the first major Earth-directed eruption in quite some time," Golub was quoted as saying by the Telegraph.
NASA recently warned that Britain could face widespread power blackouts and be left without critical communication signals for long periods of time, after the earth is hit by a once-in-a-generation "space storm".
Earlier scientists had said that they believed the Earth would be hit with unprecedented levels of magnetic energy from solar flares after the Sun wakes "from a deep slumber" sometime around 2013.
It remains unclear, however, how much damage this latest eruption will cause the world's communication tools.
Dr Lucie Green, of the Mullard Space Science Laboratory, Surrey, who followed the flare-ups using Japan's orbiting Hinode telescope, said this was a very rare event.
"Not one, but two almost simultaneous eruptions from different locations on the Sun were launched toward the Earth.
"These eruptions occur when immense magnetic structures in the solar atmosphere lose their stability and can no longer be held down by the Sun's huge gravitational pull. Just like a coiled spring suddenly being released, they erupt into space."
"This means we have a very good chance of seeing major and prolonged effects, such as the northern lights at low latitudes."
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