NASA clocks 20 million mph winds near black hole
Scientists report record-breaking winds arising from a black hole called IGR J17091-3624. The wind's speed, 20 million miles per hour, would be expected in much larger black holes.
This image shows an artist's rendering of a binary system containing a stellar-mass black hole called IGR J17091-3624. Wind speeds within the back hole have been clocked at 3 percent of the speed of light.
Illustration: NASA/CXC/M.Weiss
Astronomers using NASA鈥檚 聽have reported聽record-breaking wind speeds coming from a stellar-mass black hole.
The 鈥渨ind鈥, a high-speed stream of material that鈥檚 being drawn off a star orbiting the black hole and ejected back out into space, has been clocked at a staggering 20 million miles per hour 鈥 3% the speed of light! That鈥檚 ten times faster than any such wind ever measured from a black hole of its size!
聽The black hole, dubbed聽IGR J17091-3624 (IGR J17091 for short), is located about 28,000 light-years away in the constellation Scorpius. It is part of a binary system, with a Sun-like star in orbit around it.
鈥淭his is like the cosmic equivalent of winds from a category five hurricane,鈥 said Ashley King from the University of Michigan, lead author of the study. 鈥淲e weren鈥檛 expecting to see such powerful winds from a black hole like this.鈥
IGR J17091 exhibits wind speeds akin to black holes many times its mass鈥 such winds have only ever been measured coming from black holes millions or even billions of times more massive.
鈥淚t鈥檚 a surprise this small black hole is able to muster the wind speeds we typically only see in the giant black holes,鈥 said co-author Jon M. Miller, also from the University of Michigan.
Stellar-mass black holes are formed from the gravitational collapse of stars about 20 to 25 times the mass of our Sun.
鈥淭his black hole is performing well above its weight class,鈥 Miller added.
IGR J17091 is also surprising in that it seems to be expelling much more material from its accretion disk than it is capturing. Up to 95% of the disk material is being blown out into space by the high-speed wind which, unlike polar jets associated with black holes, blows in many different directions.
While jets of material have been previously observed in IGR J17091, they have not been seen at the same time as the high-speed winds. This supports the idea that winds can suppress the formation of jets.
Chandra observations made two months ago did not show evidence of the winds, meaning they can apparently turn on and off. The winds are thought to be powered by constant variations in the powerful magnetic fields surrounding the black hole.
The study was published in the Feb. 20 issue of
Jason Major is a graphic artist from Rhode Island now living and working in Dallas, Texas. He writes about astronomy and space exploration on his blog聽, on Universe Today and also on Discovery News.
This story originally appeared in .