Introducing the new CMS Spokesperson team! 📣 Spokes Person Gautier Hamel de Monchenault, and Deputies Hafeez Hoorani and Anadi Canepa will be representing the CMS collaboration over the next two crucial years. The collaboration thanks the previous team, Patricia McBride, Lucia Silvestris & Wolfgang Adam, for their invaluable contributions during their time. Learn more about the new team and their goals for CMS: https://lnkd.in/d7Aa35gg
À propos
The CMS experiment is one of the big detector at the largest particle physics accelerator in the world, the Large Hadron Collider(LHC) at CERN. More than 5000 physicists, engineers, computer scientists, technicians, administrative personnel, and students from over 50 countries across the globe work together to advance scientific knowledge, making CMS one of the largest scientific collaborations in the world. Founded in 1992, CMS is one of the two experiments at the #LHC that announced the discovery of the Higgs boson in 2012, opening a new chapter in particle physics. The CMS detector acts as a giant high-speed camera, taking “3D photographs” of the subatomic particles’ collisions, leading to a better understanding of the structure of matter and of the forces that rule the universe at the sub-atomic scale.
- Site web
-
https://cms.cern
Lien externe pour CMS Collaboration
- Secteur
- Services de recherche
- Taille de l’entreprise
- 5 001-10 000 employés
- Siège social
- Cessy
- Type
- Établissement éducatif
- Fondée en
- 1992
- Domaines
- Particle physics, Engineering, Science, International collaboration et Particle detector
Lieux
-
Principal
Cessy, FR
Employés chez CMS Collaboration
-
YUICHI Kubota
Retired professor
-
Sunil Kumar
Research Associate @ Panjab University | PhD in Experimental High Energy Physics
-
W. David Buitrago Ceballos
Researcher in High Energy Physics and Particle Physics Master's Student. FCC & CMS Collaboration-Cern.
-
Isabel Pedraza
Professor and Researcher at the Benemérita Universidad Autónoma de Puebla
Nouvelles
-
What if there's a new, heavier Higgs boson out there that can solve unexplained mysteries like dark matter? 🔎A latest CMS result searches for this mysterious particle across a vast range of masses by observing its decay into four leptons. Read more: https://lnkd.in/dCJ4YbEG
Exploring new frontiers: Searching for a heavy Higgs boson decaying to four leptons
cms.cern
-
Journey through the heart of quark-gluon plasma🧳 CMS researchers study the impact of this extreme state of matter on highly energetic sprays of particles produced during heavy-ion collisions. 📌Read more: https://lnkd.in/deFRqfTh
Journey through the Quark Gluon Plasma
cms.cern
-
Is Nature fair, or does it play favourites with its leptons?🧐 CMS searched for a new boson that may be BFFs with b-quarks, yet avoid mingling with the lightest leptons. Find out more: https://lnkd.in/d8mGJpCf
Testing universality – particle equality at stake
cms.cern
-
Like a detective putting clues together to solve a cosmic mystery, CMS researchers combine various Higgs boson measurements to come up with extremely precise spectra. They then use these results to probe for physics beyond the standard model... Read more: https://lnkd.in/eemn2inb This result was presented at ICHEP 2024, you can see all the other results presented here: https://lnkd.in/e572QVRG
Combining clues to solve the Higgs boson mystery
cms.cern
-
❓Can four leptons emerge from a single Z boson? The CMS experiment at CERN searches for rare transformations of the Z boson into two muons and two taus to investigate whether muons and taus behave in the same way or differently. Read the full CMS briefing here: https://lnkd.in/gSDJVA53
Unexplored Z Boson's pathways in decays to muons and taus
cms.cern
-
CMS Collaboration a republié ceci
It’s #Paris2024 🇫🇷! To celebrate we’ll be looking at 5 #Olympics themed particle physics stories. First up we're visiting the iconic Eiffel Tower, which served as Theodor Wulf's laboratory in 1909 for his cosmic ray experiment. In the early 1900s, scientists were trying to find the source of the mysterious radiation being picked up by their electroscopes - early scientific instruments that detected electric charge. At the time, they thought all the radiation came from the Earth's rocks. Wulf decided to test this idea in 1909 by bringing an electroscope up the Eiffel Tower. He measured more ionising radiation than would be expected if the ground was the only source of radiation. Further experiments by Hess and Steinke showed that the extra unexpected radiation was due to cosmic rays! These are high energy particles that travel through space at almost the speed of light before hitting our atmosphere, where some go on to reach the Earth's surface.
-
Bridging the gap between particle physics and cosmology: CMS makes use of sophisticated #MachineLearning in the search for Dark Matter candidate χ by looking at b quarks, Z bosons, and a large momentum imbalance. CERN Read the full briefing: https://lnkd.in/ePDVaUFU This result was presented at the ICHEP conference. You can find all of CMS' results presented at ICHEP 2024 here: https://lnkd.in/e572QVRG
From the Center of the Milky Way to CMS
cms.cern
-
🔎 The ultimate treasure hunt! 🔍 The CMS experiment utilises a new machine learning breakthrough – the transformer – to search for a pair of Higgs bosons, one decaying to bottom quarks and the other to W or Z bosons. CERN Read more: https://lnkd.in/e5nWZxEW You can find all the #ichep2024 #physics results here: https://lnkd.in/e572QVRG
-
To “b” or not to “b”: are there new heavy Higgs bosons, as predicted by supersymmetry? CMS studies final states with multiple b quarks to explore a wide range of possible masses; find out about this innovative approach https://lnkd.in/ekexG-5n Find all of CMS' results from #ICHEP2024 here: https://lnkd.in/e572QVRG CERN #HighEnergyPhysics #PhysicsNews
To “b” or not to “b”: is there a new heavy Higgs boson decaying to b quarks?
cms.cern