Such processes represent significant background in the search for the Higgs boson, the precise measurement of which is an important factor. A group from the University of Cestiva worked on the same experiment under the guidance of Prof.
The search for it is being conducted in the Large Hadron Collider LHCthe largest scientific instrument in the world, which helps scientists reconstruct the conditions that existed in the first moments bozjq the Big Bang, which occurred The RBI scientists in the CMS collaboration have the leading role in measuring the processes ceestica which pairs of boson particles are formed.
A proton-proton collision event in the CMS experiment producing two high-energy photons red towers. This group actively works on detecting the decay of the Higgs boson into two Z bosons, which is an exceptionally significant part of this discovery.
Scientists working on the projects CMS and ATLAS presented the results of their research, which confirmed that the new particle decays into two photons, indicating that it is a boson in the mass region around GeV, the heaviest boson ever found. Rolf Heuersaid that this discovery is a turning point in our understanding of nature. This historical csetica discovery could be the missing piece from the Standard Model SM of particle physics—mathematically the most precise theory of the interaction within the system of the smallest particles of matter—elementary particles.
The next step will be to determine the precise nature of the particle and its significance for understanding the universe. In the past five decades, over 30 theoretical and experimental physicists have been awarded the Nobel Prize for research directly connected with the SM.
This is what we would expect to see from the decay of a Higgs boson but it is also consistent with background Standard Model physics processes.
Bozon – Wikipedia
The final results will be published in late July. In addition, the group from the RBI has begun to participate in a project involving the central silicon pixel detector, which consists of over 60 million pixels and permits highly precise tracking of proton collisions. The results presented today at CERN are based on cestics collected in and