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Hunt for Higgs reveals new particle

Susan Brown | July 4, 2012

Physicists have observed a new particle that so far matches the signature they expect from the long-sought Higgs boson. But they have not yet collected enough information about the new particle to confirm that it really is the one they seek.

The CMS collaboration, one of two independent teams looking for the Higgs with separate detectors, reported a mass for the new particle of 125 giga electronvolts at a seminar held at CERN July 4. They calculated the chance of that being a false observation at three in 10 million.

two photons captured by the CMS

“This is a historic moment in science. It is amazing how quickly we have confirmed the evidence of a signal at 125 GeV that we reported just six months ago,” said Vivek Sharma, professor of physics at the University of California, San Diego who led the search for Higgs boson in the CMS experiment at CERN from 2010 to 2011 and is now a member of the CMS Editorial board. 

When the collider crashes protons together at nearly the speed of light, Higgs bosons should appear for a fleeting moment then break apart right away. Detecting the Higgs depends on tracing the trajectories of the resulting debris and understanding other physical processes that could leave similar trails.

The Standard Model, a theory that describes subatomic phenomena with remarkable accuracy, predicts that a Higgs boson of a particular mass will decay to one of several specific combinations of particles. One possibility is a pair of photons, which create flickers of light as they strike lead tungstate crystals that form one layer of the CMS detector.

UC San Diego professor James Branson’s group has studied how two photons would arise from a decaying Higgs boson and from other events, for more than a decade. They helped optimize the detector’s ability to precisely measure the photons’ energy and trajectories, information the CMS team uses to determine what exactly happened, including the mass of the disintegrated particle. The strongest signal and the most precise measurement of the mass of the new particle came from this two-photon “channel.”

The Higgs could also decay into a pair of Z bosons, which in turn decay into other particles (pairs of electrons or muons). Sharma’s group searched for the Higgs boson in these events, which while rare, are considered “golden” because they provide a unique signature of the Higgs boson. Their observation of a cluster of these events peaking near 126 GeV plays a crucial role in the observation of this new particle.

Both the two-photon and two-Z-boson channels offer excellent opportunities to pin down the mass of the Higgs boson.

The research groups of UC San Diego faculty members Vivek Sharma, Frank Würthwein and Avi Yagil, worked on yet another trail, the decay of a Higgs boson into two W bosons, an event that can indicate that a Higgs boson may have appeared, but doesn’t provide information about its mass.

A rival team of scientists working independently to analyze data collected by a separate instrument, called ATLAS, positioned at a different location within the collider’s tunnel, saw the same signal and reported the same level of confidence in their results, an essential confirmation as collisions at these energies can be produced nowhere else.

To arrive at a more definite answer on whether the Higgs boson exists in the form predicted by the Standard Model, or as something more exotic, physicists will need to sift through the debris from many more collisions to precisely measure the properties of the particle they have found. The results so far are tantalizing enough that CERN will extend the current run by three months, tripling the amount of data, in the hope of settling the question by the end of this year.

In the News

“This is a keystone in our understanding of how the universe works,” physics professor Jim Branson told Channel 6. Watch: UC San Diego Researchers Helped in Search for God Particle

A trillionth of a second after the Big Bang, scientists believe the Higgs field was created. “Once the Higgs transition came, we got mass and could make elements and chemicals and stars," Branson told KPBS. Inteviews on Midday Edition and Nightly News Local Physicists Help Discover the God Particle


Other Reports

Higgs boson: UC Physicists Mattered in Historic Search University of California Research

CERN Experiments Observe Particle Consistent with Long-Sought Higgs Boson News release from CERN

Observation of a New Particle with a Mass of 125 GeV Report from the CMS collaboration


Earlier Stories

Hunting the Higgs
Vivek Sharma explains the massive efforts to discover the Higgs boson using the Large Hadron Collider at CERN in this UCSD-TV program.

What Gives Particles Mass Vivek Sharma explains what physicists hope to achieve with the Large Hadron Collider and why the search is considered one of civilization's greatest quests in this public lecture.

Vivek Sharma on 2011 Results video from CERN

Hints of the Higgs
physicists caught glimpses of the new particle back in December 2011. 

Endgame for the Higgs Boson as the Higgs was running out of places to hide.

Physicists Begin Quest for Higgs Particle captures the excitement as the Large Hadron Collider first turned on.