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Brits seek missing WIMPs of universe
LONDON (Reuters) --British scientists equipped with state-of-the-art detectors deep underground in northern England have begun a search for one of the most tantalizing secrets of the universe -- Dark Matter.
"If we are successful in our quest then we are looking at a place in the history books," Neil Spooner of Sheffield University said Tuesday. "This will be one of the great discoveries of our time."
Scientists around the world are racing to be the first to discover the truth about Dark Matter, which cannot be seen because it does not emit light. They believe it makes up the vast majority of the universe.
Scientists say stars account for less than 1 percent of the mass of the universe, with gas clouds and other objects accounting for close to another 5 percent.
No one is quite sure what makes up the missing remainder, which has been dubbed Dark Matter.
In a bid to identify the prime suspect known as Weakly Interacting Massive Particles or WIMPs, British scientists have installed detectors 3,600 feet down a salt mine at Boulby on the North Yorkshire moors.
They are buried deep underground in an area of low natural radioactivity where intervening rock should shield them from interference and filter out cosmic bombardment.
"This is an outstanding research facility equipped with some of the world's most sensitive Dark Matter detectors," Ian Halliday, chief executive of the Particle Physics and Astronomy Research Council, said in a statement.
"It is a crucial addition to the UK's resources in a research field where British scientists are playing a world-leading role -- the race by physicists around the globe to discover these exotic, as yet undetected, Dark Matter particles," he added.
The theory is that although billions of sub-atomic particles called WIMPs are passing through the atmosphere and the Earth every second they only rarely encounter the nucleus of an atom, making it shudder slightly.
The detectors are designed to be able to detect these tiny collisions that are so rare that scientists calculate that in a 2.2-pound block of material, less than one WIMP a day will strike the nucleus of an atom and make it move.
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Copyright 2003 Reuters. All rights reserved. This material may not be published, broadcast, rewritten, or redistributed.
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LONDON (Reuters) --British scientists equipped with state-of-the-art detectors deep underground in northern England have begun a search for one of the most tantalizing secrets of the universe -- Dark Matter.
"If we are successful in our quest then we are looking at a place in the history books," Neil Spooner of Sheffield University said Tuesday. "This will be one of the great discoveries of our time."
Scientists around the world are racing to be the first to discover the truth about Dark Matter, which cannot be seen because it does not emit light. They believe it makes up the vast majority of the universe.
Scientists say stars account for less than 1 percent of the mass of the universe, with gas clouds and other objects accounting for close to another 5 percent.
No one is quite sure what makes up the missing remainder, which has been dubbed Dark Matter.
In a bid to identify the prime suspect known as Weakly Interacting Massive Particles or WIMPs, British scientists have installed detectors 3,600 feet down a salt mine at Boulby on the North Yorkshire moors.
They are buried deep underground in an area of low natural radioactivity where intervening rock should shield them from interference and filter out cosmic bombardment.
"This is an outstanding research facility equipped with some of the world's most sensitive Dark Matter detectors," Ian Halliday, chief executive of the Particle Physics and Astronomy Research Council, said in a statement.
"It is a crucial addition to the UK's resources in a research field where British scientists are playing a world-leading role -- the race by physicists around the globe to discover these exotic, as yet undetected, Dark Matter particles," he added.
The theory is that although billions of sub-atomic particles called WIMPs are passing through the atmosphere and the Earth every second they only rarely encounter the nucleus of an atom, making it shudder slightly.
The detectors are designed to be able to detect these tiny collisions that are so rare that scientists calculate that in a 2.2-pound block of material, less than one WIMP a day will strike the nucleus of an atom and make it move.
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Copyright 2003 Reuters. All rights reserved. This material may not be published, broadcast, rewritten, or redistributed.
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I haven't seen substancial proof for WIMPs.
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