Racing star could prove Einstein's theory
Astronomers have found evidence of a star racing around the black hole at the heart of our galaxy — the closest found near the matter-sucking body.
Thu, Oct 04, 2012 at 02:56 PM
Scientists said the discovery will help them test Albert Einstein's theory of general relativity and his predictions of how black holes warp space and time. (Photo: NASA/AFP)
U.S. astronomers have found evidence of a star racing tightly around the monstrous black hole at the heart of our galaxy — the closest ever found near the matter-sucking body.
The scientists from the University of California, Los Angeles, said the discovery will help them test Albert Einstein's theory of general relativity and his predictions of how black holes warp space and time.
The star, S0-102, is orbiting the black hole every 11-and-a-half Earth years, much faster than the 60 years or longer orbit of most of the stars around the Milky Way's black hole center.
This is only the second star discovered with such a short orbit — the other, S0-2, orbits the black hole every 16 years — thanks to improved imaging techniques.
Lead researcher Andrea Ghez, who has been observing the black hole since she discovered it in 1998, said the second data point is crucial for their research.
"It is the tango of S0-102 and S0-2 that will reveal the true geometry of space and time near a black hole for the first time," she said in a statement. "This measurement cannot be done with one star alone."
Like the Earth and other planets, both stars have elliptical orbits — meaning they regularly move closer and further from the black hole.
Ghez and her team at UCLA hope to see evidence of little wobbles in the orbit when the stars move closer, which would show they are being affected by the curvature of space time, as predicted by Einstein's theory.
Ghez added it was "phenomenal" to find two stars so close to the black hole.
"This should not be a neighborhood where stars feel particularly welcome," she said.
Black holes, which are what is left when a massive star dies and collapses in on itself, have a gravitational force so strong that even light cannot escape.
They cannot be seen directly, and so are observed through their influence on the things around them.
"Now it's a whole new ballgame," Ghez said, adding that the team's investigations could open a new window into understanding black holes and how the universe evolves.
The research will be published in Friday's issue of the U.S. journal "Science."
Copyright 2012 AFP Global Edition