- Uncertainty’ over signal detected at CERN
- Particle could instead be ‘impostor’, claim Cornell scientists
- CERN scientists to analyse data further
PUBLISHED: 12:24 EST, 10 July 2012 | UPDATED: 14:04 EST, 10 July 2012
A week after the discovery of a particle, believed to be the elusive particle, scientists at Cornell University have said they are not so sure.
In a paper published this week, Ian Low, Joseph Lykken and Gabe Shaughnessy of Cornell have cast doubt on what exactly was detected within the Hadron Collider.
‘The new resonance discovered by the ATLAS and CMS experiments at the CERN
Large Hadron Collider (LHC) could be the long-sought Higgs boson of the Standard Model,’ say the scientists.
But the researchers point out that it’s far from certain that the particle is the ‘standard model Higgs’ which scientists have sought for decades to fill in the ‘gaps’ in the model of physics we currently use to explain the universe.
‘We show that current LHC data already strongly disfavor both the dilatonic and non-dilatonic singlet imposters.
‘On the other hand, a generic Higgs doublet and a triplet imposter give equally good fits to the measured event rates of the newly observed scalar resonance.’
The researchers advise caution – and say that ‘currently the uncertainties in these quantities are too large’ to make a definitive statement.
Scientists at CERN are also analysing the data further to see if their discovery corresponds to the ‘standard model’ Higgs boson – or to something more mysterious.
One of the reasons for the caution at Cern is that while the new particle has so far behaved liked the elusive Higgs boson it is lighter than expected.
This opens up the possibility of there being more than one Higgs boson and could lead to a new understanding of dark matter, the mysterious substance thought to make up a quarter of the universe.
Professor Higgs, 83, wiped a tear from his eye as the findings were announced, and later said: ‘It’s really an incredible thing that it’s happened in my lifetime.’
Professor Tejinder Virdee, of Imperial College London, who helped lead one of the two teams of scientists behind the discovery, said: ‘This breaks the way to looking at a new vista in physics. It is a very exciting moment.’
An aerial view of the Swiss-French border, indicating the route of the Large Hadron Collider
The Higgs boson’s role is to give the particles that make up atoms their mass. Without this mass, they would zip around the cosmos, unable to bind together to form the atoms that make stars and planets – and people.
Despite its fabled properties, the particle has eluded previous searches and not all scientists believed in its existence.
To try to pin it down, scientists at the Large Hadron Collider near Geneva smashed together beams of protons – the ‘hearts of atoms’ – at close to the speed of light, recreating conditions that existed a fraction of a second after the Big Bang.