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| Supermassive black hole will 'eat' gas cloud | Supermassive black hole will 'eat' gas cloud |
| (about 17 hours later) | |
| Researchers have spotted a giant gas cloud spiralling into the supermassive black hole at our galaxy's centre. | Researchers have spotted a giant gas cloud spiralling into the supermassive black hole at our galaxy's centre. |
| Though it is known that black holes draw in nearby material, it will be the first chance to see one consume such a cloud. | |
| As it is torn apart, the turbulent area around the black hole will become unusually bright, giving astronomers a chance to learn more about it. | As it is torn apart, the turbulent area around the black hole will become unusually bright, giving astronomers a chance to learn more about it. |
| href="http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10652.html" >An article in Nature suggests the spectacle should be visible in 2013. | |
| Researchers using the European Southern Observatory's Very Large Telescope estimate that despite its size, the cloud has a total mass of only about three times that of Earth. | Researchers using the European Southern Observatory's Very Large Telescope estimate that despite its size, the cloud has a total mass of only about three times that of Earth. |
| They have plotted the cloud's squashed, oval-shaped path and estimate it has doubled its speed in the last seven years - to 2,350km per second. | They have plotted the cloud's squashed, oval-shaped path and estimate it has doubled its speed in the last seven years - to 2,350km per second. |
| It should spiral in to within about 40 billion kilometres of the black hole in the middle of 2013. | It should spiral in to within about 40 billion kilometres of the black hole in the middle of 2013. |
| Our local supermassive black hole, dubbed Sagittarius A*, lies about 27,000 light-years away, and has a mass about four million times that of our Sun. | Our local supermassive black hole, dubbed Sagittarius A*, lies about 27,000 light-years away, and has a mass about four million times that of our Sun. |
| As the name implies, beyond a certain threshold point - the event horizon - nothing can escape its pull, not even light itself. | As the name implies, beyond a certain threshold point - the event horizon - nothing can escape its pull, not even light itself. |
| But outside that regime is a swirling mass of material, not unlike water circling a drain. In astronomical terms, it is a relatively quiet zone about which little is known. | |
| That looks set to change, though, as the gas cloud approaches. | That looks set to change, though, as the gas cloud approaches. |
| Spaghetti tester | Spaghetti tester |
| It does not comprise enough matter to hold itself together under its own gravity, as a star might, so the cloud will begin to elongate as it meets its doom. | It does not comprise enough matter to hold itself together under its own gravity, as a star might, so the cloud will begin to elongate as it meets its doom. |
| "The idea of an astronaut close to a black hole being stretched out to resemble spaghetti is familiar from science fiction," said lead author of the study Stefan Gillessen, from Max Planck Institute for Extraterrestrial Physics in Germany. | "The idea of an astronaut close to a black hole being stretched out to resemble spaghetti is familiar from science fiction," said lead author of the study Stefan Gillessen, from Max Planck Institute for Extraterrestrial Physics in Germany. |
| "But we can now see this happening for real to the newly discovered cloud. It is not going to survive the experience." | "But we can now see this happening for real to the newly discovered cloud. It is not going to survive the experience." |
| It is likely that about half of the cloud will be swallowed up, with the remainder flung back out into space. | It is likely that about half of the cloud will be swallowed up, with the remainder flung back out into space. |
| But this violent process will literally shed light on the closest example we have of an enigmatic celestial object. | But this violent process will literally shed light on the closest example we have of an enigmatic celestial object. |
| The acceleration of the cloud's constituent material will create a shower of X-rays that will help astronomers learn more about our local black hole. | The acceleration of the cloud's constituent material will create a shower of X-rays that will help astronomers learn more about our local black hole. |
| And as astronomer Mark Morris of the University of California Los Angeles put it href="http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10767.html" >in an accompanying article in Nature, "many telescopes are likely to be watching". |