“I think we have it,” said Rolf Heuer, the director general of CERN, in an interview from his office outside of Geneva, calling the discovery “a historic milestone.” His words signaled what is probably the beginning of the end for one of the longest, most expensive searches in the history of science. If scientists are lucky, the discovery could lead to a new understanding of how the universe began.
Dr. Heuer and others said that it was too soon to know for sure whether the new particle, which weighs in at 125 billion electron volts, one of the heaviest subatomic particles yet, fits the simplest description given by the Standard Model, the theory that has ruled physics for the last half century, or whether it is an imposter, a single particle or even the first of many particles yet to be discovered . The latter possibilities are particularly exciting to physicists since they could point the way to new deeper ideas, beyond the Standard Model, about the nature of reality. For now, some physicists are calling it a “Higgs-like” particle.
“It’s great to discover a new particle but you have find out what its properties are,” said John Ellis, a theorist at CERN, the European Organization for Nuclear Research.
Joe Incandela, of the University of California, Santa Barbara, and spokesperson for one of two groups reporting data on Wednesday called the discovery, “very, very significant. It’s something that may, in the end, be one of the biggest observations of any new phenomena in our field in the last 30 or 40 years, going way back to the discovery of quarks, for example.”
Here at the Aspen Center for Physics, a retreat for scientists that will celebrate its 50th birthday on Saturday, the sounds of cheers and popping corks reverberated early Wednesday morning against the Sawatch Range through the Roaring Fork valley of the Rockies, as bleary-eyed physicists watched their colleagues read off the results in a Webcast from CERN. It was a scene duplicated in Melbourne, Australia, where physicists had gathered for a major conference, as well as in Los Angeles, Chicago, Princeton, New York, London, and beyond — everywhere that members of a curious species have dedicated their lives and fortunes to the search for their origins in a dark universe.
At CERN itself, 1,000 people stood in line all night to get into the auditorium, according to Guido Tonelli, a CERN physicist who said the atmosphere was like a rock concert. Peter Higgs, the University of Edinburgh theorist for whom the boson is named, entered the meeting to a standing ovation.
Confirmation of the Higgs boson or something very like it would constitute a rendezvous with destiny for a generation of physicists who have believed in the boson for half a century without ever seeing it. And it reaffirms a grand view of a universe ruled by simple and elegant and symmetrical laws, but in which everything interesting in it, such as ourselves, is due to flaws or breaks in that symmetry.
According to the Standard Model, which has ruled physics for 40 years now, the Higgs boson is the only visible and particular manifestation of an invisible force field, a cosmic molasses that permeates space and imbues elementary particles that would otherwise be massless with mass. Particles wading through it would gain heft.
Without this Higgs field, as it is known, or something like it, physicists say all the elementary forms of matter would zoom around at the speed of light, flowing through our hands like moonlight. There would be neither atoms nor life. " --New York Times
This is an exciting day for science, and especially for theoretical physicists.
The Higgs Boson Explained from PHD Comics on Vimeo.
HAPPY FOURTH OF JULY TO ALL!
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