Monday, July 2, 2012

US sees stronger hints of Higgs

Hints of the Higgs boson detected last year by a US "atom smasher" have become even stronger, scientists have said.

The news comes amid fevered speculation about an announcement by researchers at the Large Hadron Collider on Wednesday.

Finding the particle would fill a glaring hole in the widely accepted theory of how the Universe works.

This 30-year hunt is reaching an end, with experts confident they will soon be able to make a definitive statement about the particle's existence.

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?Start Quote

The evidence is piling up... everything points in the direction that the Higgs is there?

End Quote Prof Stefan Soldner-Rembold University of Manchester

The latest findings have come from analysis of data gathered by the US Tevatron particle accelerator, which was shut down at the end of last year.

Researchers squeezed the last information out of hundreds of trillions of collisions produced by the Tevatron - which was based at the Fermi National Accelerator Laboratory (Fermilab) in Illinois - since March 2001.

This final analysis of the data does not settle the question of whether the Higgs particle exists, but gets closer to an answer.

The scientists see hints of the boson in roughly the same part of the "search region" as the LHC - between the masses of 115 and 135 Gigaelectronvolts (GeV).

The signal is seen at the 2.9-sigma level of certainty, which means there is roughly a one in 1,000 chance that the result is attributable to some statistical quirk in the data.

In particle physics, three sigma counts as "evidence". Claiming a discovery requires a statistical certainty of five sigma - which denotes a one in a million chance that any given result is a fluke.

Sniffing success

Fermilab's Rob Roser, co-spokesperson for the Tevatron's CDF experiment, said: "Our data strongly point toward the existence of the Higgs boson, but it will take results from the experiments at the Large Hadron Collider in Europe to establish a discovery."

Stefan Soldner-Rembold, spokesperson for the machine's DZero experiment, told BBC News: "The evidence is piling up... everything points in the direction that the Higgs is there."

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Statistics of a 'discovery'

  • Particle physics has an accepted definition for a "discovery": a five-sigma level of certainty
  • The number of standard deviations, or sigmas, is a measure of how unlikely it is that an experimental result is simply down to chance rather than a real effect
  • Similarly, tossing a coin and getting a number of heads in a row may just be chance, rather than a sign of a "loaded" coin
  • The "three sigma" level represents about the same likelihood as tossing more than eight heads in a row
  • Five sigma, on the other hand, would correspond to tossing more than 20 in a row
  • With independent confirmation by other experiments, five-sigma findings become accepted discoveries

The professor of physics at the University of Manchester, added: "At the Tevatron a lot of important work has been done over the last years... it has been essential for arriving at this stage.

"So yes, the Tevatron experiments should get recognition for that, even though the LHC will be the collider to provide the final proof that the Higgs exists."

The Higgs is the cornerstone of the Standard Model - the most successful theory to explain the workings of the Universe - and explains why all other particles have mass.

But it remains on the run; though it is predicted to exist, the particle has never been detected experimentally.

If the LHC confirms the boson's existence, physicists will set about the task of working out whether or not it is the version of the Higgs predicted by the Standard Model.

Many researchers will hope it is not, because that would hint at phenomena outside our current understanding of physics.

The Higgs cannot be seen directly; physicists have to infer its existence by looking at the particles it has ultimately decayed - or transformed - into, and work backwards to "reconstruct" it.

The Tevatron and the LHC look for the boson in different ways. The LHC is expected to present evidence for a Higgs transforming into two photons - the rarest decay path predicted by theory.

The Tevatron appears to see hints of a Higgs transforming into particles known as b quarks - the most common type of decay.

Combining information from both accelerators will provide vital clues about the nature of this potential new particle, and whether it is really the Higgs boson scientists expect.

Most researchers now regard the Standard Model as a stepping stone to some other, more complete theory, which can explain phenomena such as dark matter and dark energy.

A non-conformist Higgs could open the door to a theory called supersymmetry - which predicts that each Standard Model particle is accompanied by a heavier partner known as a "sparticle". Or it could hint at the existence of extra dimensions.

For physicists, these would be more exciting outcomes, and would keep them busy for many years to come.

Paul.Rincon-INTERNET@bbc.co.uk and follow me on Twitter

Source: http://www.bbc.co.uk/news/science-environment-18677808#sa-ns_mchannel=rss&ns_source=PublicRSS20-sa

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