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CERN experiments announce first indications of a rare Higgs boson process

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CERN experiments announce first indications of a rare Higgs boson processabhaMon, 08/03/2020 - 14:22
Candidate event displays of Higgs boson decaying into two muons as recorded by CMS (left) and ATLAS (right).
Candidate event displays of Higgs boson decaying into two muons as recorded by CMS (left) and ATLAS (right). (Image: CERN)

Geneva. At the 40th ICHEP conference, the ATLAS and CMS experiments announced new results which show that the Higgs boson decays into two muons. The muon is a heavier copy of the electron, one of the elementary particles that constitute the matter content of the Universe. While electrons are classified as a first-generation particle, muons belong to the second generation. The physics process of the Higgs boson decaying into muons is a rare phenomenon as only about one Higgs boson in 5000 decays into muons. These new results have pivotal importance for fundamental physics because they indicate for the first time that the Higgs boson interacts with second-generation elementary particles.

Physicists at CERN have been studying the Higgs boson since its discovery in 2012 in order to probe the properties of this very special particle. The Higgs boson, produced from proton collisions at the Large Hadron Collider, disintegrates – referred to as decay – almost instantaneously into other particles. One of the main methods of studying the Higgs boson’s properties is by analysing how it decays into the various fundamental particles and the rate of disintegration.

CMS achieved evidence of this decay with 3 sigma, which means that the chance of seeing the Higgs boson decaying into a muon pair from statistical fluctuation is less than one in 700. ATLAS’s two-sigma result means the chances are one in 40. The combination of both results would increase the significance well above 3 sigma and provides strong evidence for the Higgs boson decay to two muons.

“CMS is proud to have achieved this sensitivity to the decay of Higgs bosons to muons, and to show the first experimental evidence for this process. The Higgs boson seems to interact also with second-generation particles in agreement with the prediction of the Standard Model, a result that will be further refined with the data we expect to collect in the next run,” said Roberto Carlin, spokesperson for the CMS experiment.

The Higgs boson is the quantum manifestation of the Higgs field, which gives mass to elementary particles it interacts with, via the Brout-Englert-Higgs mechanism. By measuring the rate at which the Higgs boson decays into different particles, physicists can infer the strength of their interaction with the Higgs field: the higher the rate of decay into a given particle, the stronger its interaction with the field. So far, the ATLAS and CMS experiments have observed the Higgs boson decays into different types of bosons such as W and Z, and heavier fermions such as tau leptons. The interaction with the heaviest quarks, the top and bottom, was measured in 2018. Muons are much lighter in comparison and their interaction with the Higgs field is weaker. Interactions between the Higgs boson and muons had, therefore, not previously been seen at the LHC.

“This evidence of Higgs boson decays to second-generation matter particles complements a highly successful Run 2 Higgs physics programme. The measurements of the Higgs boson’s properties have reached a new stage in precision and rare decay modes can be addressed. These achievements rely on the large LHC dataset, the outstanding efficiency and performance of the ATLAS detector and the use of novel analysis techniques,” said Karl Jakobs, ATLAS spokesperson.

What makes these studies even more challenging is that, at the LHC, for every predicted Higgs boson decaying to two muons, there are thousands of muon pairs produced through other processes that mimic the expected experimental signature. The characteristic signature of the Higgs boson’s decay to muons is a small excess of events that cluster near a muon-pair mass of 125 GeV, which is the mass of the Higgs boson. Isolating the Higgs boson to muon-pair interactions is no easy feat. To do so, both experiments measure the energy, momentum and angles of muon candidates from the Higgs boson’s decay. In addition, the sensitivity of the analyses was improved through methods such as sophisticated background modelling strategies and other advanced techniques such as machine-learning algorithms. CMS combined four separate analyses, each optimised to categorise physics events with possible signals of a specific Higgs boson production mode. ATLAS divided their events into 20 categories that targeted specific Higgs boson production modes.

The results, which are so far consistent with the Standard Model predictions, used the full data set collected from the second run of the LHC. With more data to be recorded from the particle accelerator’s next run and with the High-Luminosity LHC, the ATLAS and CMS collaborations expect to reach the sensitivity (5 sigma) needed to establish the discovery of the Higgs boson decay to two muons and constrain possible theories of physics beyond the Standard Model that would affect this decay mode of the Higgs boson.


LINKS

Scientific materials
 
Papers:
CMS physics analysis summary: https://cds.cern.ch/record/2725423
ATLAS paper on arXiv: https://arxiv.org/abs/2007.07830

Physics briefings:
CMS: https://cmsexperiment.web.cern.ch/news/cms-sees-evidence-higgs-boson-decaying-muons
ATLAS: https://atlas.cern/updates/physics-briefing/new-search-rare-higgs-decays-muons

Event displays and plots:
CMS: https://cds.cern.ch/record/2720665?ln=en
 http://cds.cern.ch/record/2725728
ATLAS: https://cds.cern.ch/record/2725717?ln=en
 https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/HIGG-2019-14

Photos

CMS detector:
https://cds.cern.ch/record/1344500/files/0712017_02.jpg?subformat=icon-1440
https://cds.cern.ch/record/1431473/files/bul-pho-2007-079.jpg?subformat=icon-1440

ATLAS detector: https://mediastream.cern.ch/MediaArchive/Photo/Public/2007/0706038/0706038_02/0706038_02-A4-at-144-dpi.jpg
https://mediastream.cern.ch/MediaArchive/Photo/Public/2007/0705021/0705021_01/0705021_01-A4-at-144-dpi.jpg

CMS muon system:
https://cds.cern.ch/record/2016944/files/IMG_0267.jpg?subformat=icon-1440
https://cds.cern.ch/record/1431505/files/DSC_1432.jpg?subformat=icon-1440

ATLAS muon spectrometer:
https://mediastream.cern.ch/MediaArchive/Photo/Public/2006/0610010/0610010_02/0610010_02-A4-at-144-dpi.jpg
https://mediastream.cern.ch/MediaArchive/Photo/Public/2007/0707043/0707043_01/0707043_01-A4-at-144-dpi.jpg


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