Wednesday, December 14, 2011

Glimpse of Higgs Boson ??



The most coveted prize in particle physics - the Higgs boson - may have been glimpsed, say researchers reporting at the Large Hadron Collider (LHC) in Geneva. The particle is purported to be the means by which everything in the Universe obtains its mass.

Scientists say that two experiments at the LHC see hints of the Higgs at the same mass, fuelling huge excitement. But the LHC does not yet have enough data to claim a discovery. Finding the Higgs would be one of the biggest scientific advances of the last 60 years. It is crucial for allowing us to make sense of the Universe, but has never been observed by experiments.

The Higgs boson
The Higgs is a sub-atomic particle that is predicted to exist, but has not yet been seen
It was proposed as a mechanism to explain mass by six physicists, including Peter Higgs, in 1964.
It imparts mass to other fundamental particles via the associated Higgs field
It is the last missing member of the Standard Model, which explains how particles interact
This basic building block of the Universe is a significant missing component of the Standard Model - the "instruction booklet" that describes how particles and forces interact. Two separate experiments at the LHC - Atlas and CMS - have been conducting independent searches for the Higgs. Because the Standard Model does not predict an exact mass for the Higgs, physicists have to use particle accelerators like the LHC to systematically look for it across a broad search area.

At a seminar at Cern (the organization that operates the LHC) on Tuesday, the heads of Atlas and CMS said they see "spikes" in their data at roughly the same mass: 124-125 gigaelectronvolts (GeV; this is about 130 times as heavy as the protons found in atomic nuclei). "The excess may be due to a fluctuation, but it could also be something more interesting. We cannot exclude anything at this stage," said Fabiola Gianotti, spokesperson for the Atlas experiment.

 Guido Tonelli, spokesperson for the CMS experiment, said: "The excess is most compatible with a Standard Model Higgs in the vicinity of 124 GeV and below, but the statistical significance is not large enough to say anything conclusive. "As of today, what we see is consistent either with a background fluctuation or with the presence of the boson."

Prof Rolf-Dieter Heuer, director-general of Cern, told BBC News: "Such signals can come and go… Although there is correspondence between the two experiments, we need more solid numbers."
None of the spikes seen by the experiments is at much more than the "two sigma" level of certainty.
A level of "five sigma" is required to claim a discovery, meaning there is less than a one in a million chance the data spike is down to a statistical fluke.

Another complicating factor is that these tantalizing hints consist only of a handful of events among the billions of particle collisions analysed at the LHC. Professor Rolf-Dieter Heuer, director-general of Cern told BBC News: "We can be misled by small numbers, so we need more statistics," but added: "It is exciting."

If it exists, the Higgs is very short-lived, quickly decaying - or transforming - into more stable particles. There are several different ways this can happen, which provides scientists with different routes to search for the boson. They looked at particular decay routes for the Higgs that produce only a handful of events, but have the advantage of having less background noise in the data. This background noise consists of random combinations of events, some of which can look like Higgs decays.

Other decay modes produce more events - which are better for statistical certainty - but also more background noise. Prof Heuer said physicists were "squeezed" between these two options.
Prof Stefan Soldner-Rembold, from the University of Manchester, called the quality of the LHC's results "exceptional", adding: "Within one year we will probably know whether the Higgs particle exists, but it is likely not going to be a Christmas present."

The simple fact that both Atlas and CMS seem to be seeing a data spike at the same mass has been enough to cause enormous excitement in the particle physics community.

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