The latest statement from CERN about 'God's seed'

At 8:00 pm on December 13, two research groups ATLAS2 and CMS3 presented an experiment to search for the Higgs particle before the European physic world.

Experimental results are not strong enough to ascertain whether or not the Higg particle exists.

>>>The world will see "god particle" next week

At 8:00 pm on December 13, two research groups ATLAS2 and CMS3 presented an experiment to search for the Higgs particle before the European physic world.

Their results are based on analyzing a much larger volume of data than the CERN Conference in the summer. However, according to CERN's official conclusion, although there are many advances in the search for the Lord's Particle, these results are not strong enough to ascertain whether the Higg seed exists or not.

In the press release released shortly after the Conference, CERN said, the Higgs - if it really exists - is likely to have a range in the range of 116-130 GeV (according to ATLAS experiments) and 115 - 127 GeV (according to CMS experiment). Signs that hint at the existence of Higgs appear in both experiments, but they are not strong enough to claim to be a 'new discovery' of science.

Picture 1 of The latest statement from CERN about 'God's seed'

The Higgs, if real, has a very short life span and decays in different ways. ATLAS and CMS experiments are based on observing decaying particles instead of focusing on the Higgs itself. Scientists have analyzed a number of decay channels and found an extremely small amount of redundancy in volume. They believe that this is the remnant of the Higgs.

According to CERN, there are many independent measurements that have reached 124-126 GeV mass, but it is still too early to conclude that ATLAS and CMS have found the Higgs. However, it is undeniable that these new results have attracted widespread attention from the particle physics community.

Picture 2 of The latest statement from CERN about 'God's seed'

One moment showed four muons (red rays) in a collision between protons and protons. This event matches the decay of two Z particles: each particle is divided into two muons. These types of events occur in a standard model process without the presence of the Higgs. However, it is still possible that the Higgs particle has been born, only that will need more analysis to confirm this.

'We have limited the most feasible volume area for the Higgs particle to 116-130 GeV. In the past few weeks, we have begun to record many interesting events in the 125 GeV mass range , 'said ATLAS spokesman. 'Of course, redundancy may be due to fluctuations, but also from what we all expect. We cannot conclude at this stage. More research is needed and more data is needed. But given the outstanding results of the LHC this year, we can say that we will no longer be able to solve this problem further. '

In the coming months, both experimental groups will continue to refine and perfect their analyzes. CERN hopes to make new progress to announce at the Winter Physics Conference in March 2012.

Update 11 December 2018
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