A massive solar flare is expected on 4th of July, the day in which America celebrates its independence.
According to reports at 10:52 UT the sun’s active region AR1515 released a M5.6-class solar flare towards Earth, sending X-ray and extreme ultraviolet radiation in our direction.
Discovery revealed that the flare was almost strong enough to become an X-class flare, the most powerful variety of solar eruption.
The sun’s active region AR1515 released a M5.6-class solar flare towards Earth, sending X-ray and extreme ultraviolet radiation in our direction
While the solar flare is not harmful to humans on the ground it does wreak havoc on the upper atmosphere by sending ionization waves through the ionosphere, in some cases causing disruptions to global communications.
The solar flare according to Spaceweather.com was discovered by Rob Stemmes of the Polar Light Center in Lofoten, Norway. A powerful SID was witnessed over Europe only a short time after the flare erupted from the sun.
Solar flares have been around for as long as the sun and happen in cycles along the sun’s photosphere (solar surface).
Space.com reports that this first solar flare is just the start of what is expected to be a solar storm that reaches well into Fourth of July festivities.
With a wave of plasma expected to Earth by Independence Day it looks like there will be more in our skies than just fireworks and if we could actually see the solar flare show with our own eyes, well we would go blind but before that we would stare in amazement at mother nature’s own massive fireworks display.
Specialists announce that the sun is today bombarding Earth with radiation from the biggest solar storm in almost seven years, with more to come from the fast-moving eruption.
The solar storm occurred at about 11: 00 p.m. Eastern Time on Sunday and will hit Earth with three different effects at three different times.
The biggest issue is radiation, which is mostly a concern for satellite disruptions and astronauts in space. It can cause communication problems for polar-travelling aeroplanes, experts said.
Radiation from Sunday’s flare arrived at Earth an hour later and will probably continue through until Wednesday, experts say. Levels are considered strong but other storms have been more severe.
There are two higher levels of radiation on the National Oceanic and Atmospheric Administration’s storm scale of “severe” and “extreme”, space weather centre physicist Doug Biesecker said.
This storm is the strongest for radiation since May 2005. The radiation – in the form of protons – came flying out of the sun at 93 million miles per hour.
“The whole volume of space between here and Jupiter is just filled with protons and you just don’t get rid of them like that,” Doug Biesecker said, explaining why the effects will stick around for a couple of days.
Radiation from Sunday's flare arrived at Earth an hour later and will probably continue through until Wednesday
NASA’s flight surgeons and solar experts examined the solar flare’s expected effects.
They decided that the six astronauts on the International Space Station do not have to do anything to protect themselves from the radiation, spokesman Rob Navias said.
A solar eruption is followed by a one-two-three punch, said Antti Pulkkinen, a physicist at NASA’s Goddard Space Flight Center in Maryland and Catholic University.
First comes electromagnetic radiation, followed by radiation in the form of protons. Then, finally the coronal mass ejection – that’s the plasma from the sun itself – hits.
Usually that travels at about 1 or 2 million miles per hour, but this storm is particularly speedy and is shooting out at 4 million miles per hour, Doug Biesecker said.
Plasma causes much of the noticeable problems on Earth, such as electrical grid outages. In 1989, a solar storm caused a massive blackout in Quebec. It can also pull the northern lights further south.
But this coronal mass ejection seems likely to be only moderate, with a chance for becoming strong, Doug Biesecker said. The worst of the storm is likely to go north of Earth.
And unlike last October, when a freak solar storm caused auroras to be seen as far south as Alabama, the northern lights aren’t likely to dip too far south this time, Doug Biesecker said.
Parts of New England, upstate New York, northern Michigan, Montana and the Pacific Northwest could see an aurora but not until Tuesday evening, he said.
For the past several years the sun had been quiet. Part of that was the normal calm part of the sun’s 11-year cycle of activity.
Last year, scientists started to speculate that the sun was going into an unusually quiet cycle that seems to happen maybe once a century or so.
Now that super-quiet cycle doesn’t seem as likely, Doug Biesecker said. Scientists watching the sun with a new NASA satellite launched in 2010 – during the sun’s quiet period – are excited.
“We haven’t had anything like this for a number of years,” Antti Pulkkinen said. “It’s kind of special.”