July 08, 2026 11:52 pm (IST)
Follow us:
facebook-white sharing button
twitter-white sharing button
instagram-white sharing button
youtube-white sharing button
Dalal Street bleeds! Sensex tanks over 1,600 points after Trump declares Iran ceasefire 'over' | 'It's over': Trump says on ceasefire with Iran | PM Modi visits 1,000-year-old Prambanan Temple in Indonesia, shares majestic aerial view of the holy site | Baruipur minor rape-murder case: Key accused Pravash Mondal killed in encounter | 'We have been cheated': Egypt coach slams refereeing after Argentina match sparks controversy | From 0-2 to victory! Argentina stage miraculous comeback amid referee drama to crush Egypt's World Cup dream | Amid outrage over Baruipur, another minor girl allegedly raped in West Bengal | Kerala rain fury: 2 dead, 10 feared trapped as massive Wayanad landslide triggers rescue race | Rick Scott revives Bin Laden issue, questions Pakistan's credibility as Iran mediator | Mbappé vs Paraguayan Senator: Ugly World Cup spat spirals into international controversy

CERN experiments report new Higgs boson measurements

| | Jun 23, 2014, at 06:13 pm
Geneva, June 23 (IBNS). In a paper published in the journal Nature Physics on Monday, the CMS experiment at CERN reports new results on an important property of the Higgs particle, whose discovery was announced by the ATLAS and CMS experiments on 4 July 2012.

The CMS result follows preliminary results from both experiments, which both reported strong evidence for the fermionic decay late in 2013.

The Higgs boson is associated with a mechanism first put forward in 1964 by Robert Brout, François Englert and Peter Higgs to account for the different ranges of two fundamental forces of nature.

Now referred to as BEH, this mechanism is postulated to give rise to the masses of all the fundamental particles. In order to test that idea fully, it is necessary to measure the direct decay of the Higgs boson into all kinds of particles.

When the Higgs boson discovery was announced in 2012, it was based on measurements of the decay of the Higgs to other bosons, the carriers of nature’s forces. The results reported by ATLAS and CMS discuss the decay of Higgs bosons directly to fermions, the particles that make up matter.

The measurements from both have given substantial evidence that the Higgs boson decays directly to fermions at a rate consistent with that predicted by the Standard Model of particle physics, the theory that accounts for the fundamental particles of visible matter and the interactions that work between them, giving structure to matter.

“With our on-going analyses, we are really starting to understand the BEH mechanism in depth,” said CMS Spokesperson, Tiziano Camporesi. “So far, it is behaving exactly as predicted by theory.”

“These results show the power of the detectors in allowing us to do precision Higgs physics,”said ATLAS Spokesperson, Dave Charlton. “We’re coming close to achieving all we can on the Higgs analysis with run 1 data, and are all looking forward to new data when the LHC restarts in 2015.”

The Large Hadron Collider, CERN’s flagship research facility, has been off-line for maintenance and upgrading in last 18 months. Preparations are now underway for it to restart early in 2015.

More information will be available as results are announced at the International Conference on High Energy Physics, ICHEP, which starts in Valencia, Spain, on July 2.

Support Our Journalism

We cannot do without you.. your contribution supports unbiased journalism

IBNS is not driven by any ism- not wokeism, not racism, not skewed secularism, not hyper right-wing or left liberal ideals, nor by any hardline religious beliefs or hyper nationalism. We want to serve you good old objective news, as they are. We do not judge or preach. We let people decide for themselves. We only try to present factual and well-sourced news.

Support objective journalism for a small contribution.