- Star is moving at 2.5 million kilometres per hour
- Hubble shows that it originated in the core of the Milky Way
- Now on the Milky Way’s outskirts and heading outward
Using the Hubble Space Telescope, astronomers have studied a “super-hot blue star” leaving our Milky Way galaxy three times faster than the speed of the Sun.
The “hypervelocity” star—known as HE 0437-5439—is presently 200,000 light-years from the galactic centre, and shooting outward at around 2.5 million kilometres per hour.
It also appears to be bafflingly youthful.
So what’s a nice young star doing in a place like that?
The astronomers say the most likely scenario is that it was once part of a triple-star system that lived in the inner parts of our galaxy, and which one day came too close the Milky Way’s central black hole.
They think one of the stars was captured by the black hole, but that the other two were boosted onto a trajectory that sent them zooming up and out of the Milky Way.
Somewhere along the way, the two stars merged to form one, much bigger and hotter star.
All of the 16 known hypervelocity stars seem to have come from the Galaxy’s inner region, but HE 0437-5439 is the first to have been pinned down as coming from the galactic core.
“Using Hubble, we can for the first time trace back to where the star came from by measuring the star’s direction of motion on the sky,” said astronomer Warren Brown of the Harvard-Smithsonian Centre for Astrophysics in Cambridge, Massachusetts. “Our measurements point directly to the Milky Way centre.”
An age-old problem
The star’s apparent youth is another puzzle. In 2008, a different team of astronomers found a chemical match between the light spectrum of HE 0437-5439 and stars that live in the Large Magellanic Cloud (LMC), a neighbouring galaxy only 65,000 light-years from HE 0437-5439’s present position.
This implied that HE 0437-5439 might have been travelling in the opposite direction, having come from the LMC.
But using Hubble to measure the star’s movement through space—by comparing images taken 3.5 years apart—it’s now clear that it originated in the inner Milky Way.
At its speed, the star should have taken around 100 million years to reach its current location. But stars this big and hot tend to “burn out” quickly, in perhaps just 20 million years.
So how did it go so far without burning out?
This is where the triple-star origin comes in. With one star captured by the black hole, the other two headed off together at a great rate of knots into the wild black yonder. One of them aged a little quicker, which in stellar terms means it puffed up and became a red giant, engulfing and merging with its sibling.
The result was what astronomers call a “blue straggler“, a “re-born” young star that comes from a stellar merger.
The astronomers are now working on finding the origin of four other lone stars on the far outskirts of the Milky Way.
Story by Jonathan Nally, Editor, SpaceInfo.com.au
Image credits: illustrations, NASA / ESA / G. Bacon, A. Field and Z. Levay (STScI); science, NASA / ESA / O. Gnedin (University of Michigan, Ann Arbor), and W. Brown (Harvard-Smithsonian Centre for Astrophysics, Cambridge, Mass.)
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