The potential discovery of the “God particle” was a gateway to a new era that could see humanity unlock some of the universe’s great mysteries including dark matter said physicists on Thursday.
The European Organization for Nuclear Research (CERN) unveiled data from the Large Hadron Collider on Wednesday “consistent with the long-sought Higgs boson”, an elusive particle thought to help explain why matter has mass.
It was hailed as a huge moment for science by physicists gathered in Australia, where CERN’s findings were unveiled via video link from Geneva at a landmark conference attended by hundreds of the field’s top experts.
Following the announcement, scientists went into a frenzy speculating that it could one day make light speed travel possible by “un-massing” objects or allow huge items to be launched into space by “switching off” the Higgs. CERN scientist Albert de Roeck equated it to the discovery of electricity, when he said humanity could never have imagined its future applications.
“What’s really important for the Higgs is that it explains how the world could be the way that it is in the first millionth of a second in the Big Bang,” de Roeck told AFP. “Can we apply it to something? At this moment my imagination is too small to do that.”
Physicist Ray Volkas said “almost everybody” was hoping that, rather than fitting the so-called Standard Model of physics — a theory explaining how particles fit together in the Universe — the Higgs boson would prove to be “something a bit different”.
“If that was the case that would point to all sorts of new physics, physics that might have something to do with dark matter,” he said, referring to the hypothetical invisible matter thought to make up much of the universe. “It could be, for example, that the Higgs particle acts as a bridge between ordinary matter, which makes up atoms, and dark matter, which we know is a very important component of the universe.”
“That would have really fantastic implications for understanding all of the matter in the universe, not just ordinary atoms,” he added. De Roeck said scrutinising the new particle and determining whether it supported something other than the Standard Model would be the next step for CERN scientists. Clarification could be expected by the beginning of 2013; definitive proof that it fitted the Standard Model could take until 2015 when the Large Hadron Collider (LHC) had more power and could harvest more data.
The LHC is due to go offline for a two-year refit in December that will see its firepower doubled to 14 trillion electron volts — a huge step forward in the search for new particles and clues about what holds them all together.
De Roeck said he would find it a “little boring at the end if it turns out that this is just the Standard Model Higgs”. Instead, he was hoping it would be a “gateway or a portal to new physics, to new theories which are actually running nature” such as supersymmetry, which hypothesises that there are five different Higgs particles governing mass. The hunt for Higgs — the logical next step of which de Roeck said would be searching for, and eventually being able to produce, dark matter particles — has already had huge benefits to medicine and technology. Volkas said the Internet was born at CERN as a solution to high-volume data sharing and other major spin-offs were likely to follow as physicists continued to “push the boundaries of pure science”.