NASA Thermonuclear Art in 4K

The sun is always changing and NASA’s Solar Dynamics Observatory is always watching. Launched on February 11, 2010, SDO keeps a 24-hour eye on the entire disk of the sun, with a prime view of the graceful dance of solar material coursing through the sun’s atmosphere, the corona.

SDO captures images of the sun in 10 different wavelengths, each of which helps highlight a different temperature of solar material. Different temperatures can, in turn, show specific structures on the sun such as solar flares, which are gigantic explosions of light and x-rays, or coronal loops, which are stream of solar material travelling up and down looping magnetic field lines.

Scientists study these images to better understand the complex electromagnetic system causing the constant movement on the sun, which can ultimately have an effect closer to Earth, too.

Flares and another type of solar explosion called coronal mass ejections can sometimes disrupt technology in space. Moreover, studying our closest star is one way of learning about other stars in the galaxy. NASA’s Goddard Space Flight Center in Greenbelt, Md. built, operates, and manages the SDO spacecraft for NASA’s Science Mission Directorate in Washington, D.C.

Astronomers spot mysterious object ‘unlike anything seen before’ – and it’s sending signals our way

A mysterious object unlike anything that astronomers have seen before has been discovered in our “galactic backyard”.

In research published Wednesday, scientists described the strange, spinning mass, which is said to release an enormous burst of energy every 20 minutes.

That radiation, which crosses the line of sight of telescopes on Earth for 60 seconds at a time, is one of the brightest radio sources in the sky.

It was detected by a team at the Australia-based International Centre for Radio Astronomy Research, who were mapping radio waves in the Universe.

An artist’s impression of what the object might look like if it’s a magnetar, an incredibly magnetic neutron star

They believe that the cosmic flasher could be a super-dense star or a white dwarf – collapsed cores of stars – with a powerful magnetic field.

“This object was appearing and disappearing over a few hours during our observations,” said Dr Natasha Hurley-Walker, an astronomer from Curtin University in Australia who led the team.

“That was completely unexpected. It was kind of spooky for an astronomer because there’s nothing known in the sky that does that.

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Significant solar flare’ prompts G3 Geomagnetic Storm Watch

The sun emitted a “significant solar flare” on Oct. 28 and because of it, the Earth is under a G3 (strong) Geomagnetic Storm Watch until Oct. 31, according to the National Oceanic and Atmospheric Administration (NOAA).

The solar flare was categorized as an X1.0-class flare, according to NASA.

“X-class denotes the most intense flares, while the number provides more information about its strength. An X2 is twice as intense as an X1, an X3 is three times as intense, etc. Flares that are classified X10 or stronger are considered unusually intense,” NASA said in a Thursday news release.

The solar flare took place at about 11:35 a.m. ET on Thursday after it was observed by the Solar Dynamics Observatory, according to NASA.

Any impacts the solar flare may have on Earth’s technology are minimal, but the G3 storm has the potential to push the aurora further out, giving people who live in Iowa, Oregon and Pennsylvania a chance to see it over the weekend, the NOAA said.

The aurora borealis and aurora australis — also known as the northern lights and southern lights — are the eerily beautiful green and purple lights seen in the sky at the north and south poles of the Earth. The lights occur when space weather, such as solar flares, interferes with the planet’s magnetic field, according to NASA.

“When we see the glowing aurora, we are watching a billion individual collisions, lighting up the magnetic field lines of Earth,” NASA said.