“Mystery object is hurtling toward” Milky Way Galactic Center

"Swift's daily monitoring of the galactic center caught the flare that suddenly sent the level of X-ray emission soaring." Nathalie Degenaar & others
“Swift’s daily monitoring of the galactic center caught the flare that suddenly sent the level of X-ray emission soaring.”
Nathalie Degenaar & others

Sky and Telescope has posted this report about the detection using high powered infrared telescopes of a “mystery object” close to the center of our galaxy.

The article is entitled, “A cosmic sleight of hand,” written by Monica Young.

From the report:

The object looks like a tiny bit of fuzz in images taken by some of the most powerful infrared telescopes. In fact, it could be anything from a gas cloud with the mass of three Earths to an enshrouded star or even an evaporating protoplanetary disk.

Whatever it might be, G2 will whizz past our galaxy’s central black hole (often called Sgr A*) in mid-September. It’ll pass just 180 times the distance between Earth and the Sun away from the black hole, an event that affords astronomers an unprecedented opportunity to watch the beast devour a snack. What exactly will happen is anyone’s guess, but astronomers are at the ready, regularly monitoring the galaxy’s central black hole.

On April 24th, the Swift telescope witnessed an X-ray flare coming from the galactic center, tantalizing lengthy compared to Sgr A*’s typical flares. And one day later, Swift’s Burst Alert Telescope captured a fleeting, 32-millisecond-long burst of higher-energy X-rays

Needless to say, the galactic center had astronomers’ attention.

But did the flare signal G2’s imminent demise? The ultra-short flare emitted on April 25th looked more reminiscent of the type of outburst emitted bymagnetars, spinning stellar corpses with extreme magnetic fields.

Unlike a pulsar, whose whirling rotation powers the lighthouse-like jet that we see as radio-wave and X-ray pulses, a magnetar’s emission is powered by its decaying magnetic fields, which can be 100 million times more powerful than thestrongest man-made magnet. To put it in another perspective, a magnetar half the Moon’s distance away from Earth would wipe the magnetic strips of every credit card on the planet.

Swift didn’t see any pulsations from the X-ray source, but it wasn’t designed to — its detector can only register incoming X-ray photons every 2.5 seconds. NuSTAR, on the other hand, has a time resolution of 2 milliseconds. And on April 26, two days after the initial flare, the space telescope gathered X-rays from the galactic center for a full 26 hours, spotting a complex, three-peaked pulse emitted every 3.76 seconds. A follow-up observation 9 days later confirmed that the source was a magnetar.

Still, it wasn’t clear where the source was; NuSTAR’s vision is even less sharp than Swift’s. To locate the source, astronomers needed the eagle-eyed Chandra X-ray Observatory, which placed the pulsing X-ray source just 3 arcseconds away from Sgr A*. And Sgr A* wasn’t flaring, confirming that all recent X-ray activity came from the magnetar.

“It appears Nature was playing a little game with us,” Mark Reynolds (University of Michigan) says a tad ruefully. Reynolds is part of the Swift team monitoring Sgr A*.

But instead of witnessing galactic fireworks, astronomers had been handed an unexpected treat.

“I have been working on pulsars and magnetars for years,” says Kaya Mori (Columbia University), “and I have to say, this source is an extraordinary object found at the most extraordinary place in our galaxy.”

Though it’s still possible that the source now named SGR J1745-2900 lies elsewhere in the galaxy, and just happens to be superimposed 0.3 light-years away from Sgr A* (100 times further away than G2’s closest approach), X-ray measurements and later radio observations show that the source probably lies in the galactic center. Whether the magnetar is close enough to orbit the black hole is a question for follow-up observations.

This article states that magnetars are very rare, as “only two-dozen” have been observed.

Does activity at the center of the Milky Way galaxy affect Earth?  Could this be related to the Sun’s recent coronal quiet?

Read the full article, click here.

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