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BBC News Online: Sci/Tech

Monday, 7 February, 2000, 12:22 GMT

Major flare erupts on Sun

The massive eruption spurts out (at 9 o'clock on Sun's face)

By BBC News Online science editor Dr David Whitehouse

A major solar flare erupted on the north-east limb of the Sun on Saturday. It was one of the largest and brightest optical flares seen in recent years, according to data from the US National Oceanic and Atmospheric Administration and the Space Environment Centre.

It was followed by the ejection of billions of tonnes of super-hot gas. This was not directed at Earth but the increasing activity raises the possibility that a future eruption could damage satellites and communications and power supplies on Earth. The flare was extremely bright

It was caused by the upwelling of magnetic fields from beneath the Sun's surface. The magnetic fields, arranged in so-called flux-tubes, become filled with super-hot gas.

Eventually the flux-tubes become distorted to the point of breakdown. When this happens a vast amount of energy is explosively liberated in a solar flare.

B for brilliant

The flare spewed out radiation right across the electromagnetic spectrum. For optical light intensity, it got the maximum rating of "B" (for brilliant).

And in terms of high-energy X-rays, the flare was in the most powerful "X"-class. The Goes 8 satellite detected the bright surge which emitted ten million times more energy than a volcanic explosion.

However, solar physicists point out that this size of blast represents less than one-tenth of the total energy emitted by the Sun every second.

Solar flares become more common during a sunspot maximum. The current sunspot cycle is predicted to peak in mid-2000, and remain high for at least a year.

Complex magnetic field

Although the 5 February solar flare was big and bright, it did not come from a particularly impressive sunspot group. Active region 8858, the site of the flare, covers just 200 millionths of the solar disk.

However, its magnetic field is complex, exhibiting strong gradients that make it a likely site for flare activity. Space weather forecasters expect the region to continue developing in the coming days. If that happens, we could be in for more major flares. The ejection began shortly after the flare

The ejection began shortly after the flare

Just after the solar flare, the Solar and Heliospheric Observatory (Soho) satellite recorded a dramatic coronal mass ejection (CME) travelling approximately 500 kilometres per second away from the Sun. This material had been propelled away from the Sun by the flare's energy.

Earth safe

The ejected material does not appear to be headed for Earth and therefore represents no threat to our communication systems. However, if the active region produces further ejections in the coming week, they could reach the Earth.

Soho took these images shortly after the start of the 5 February solar flare.

CMEs can carry up to 10 billion tonnes of super-hot ionised gas at speeds as high as 2,000 km/s. When they collide directly with Earth, they can cause so-called geomagnetic storms, which have been linked to satellite communication failures.

In extreme cases, such storms can induce electric currents in the Earth and oceans that can interfere with or even damage electric power transmission equipment.

Related to this story:
Solar flare alert (03 Aug 99 | Sci/Tech)
Internet reveals solar explosion's target (07 Jun 99 | Sci/Tech)

Internet Links: Coronal mass ejections Soho satellite Solar flares Current images of the Sun
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