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- The Large Hadron Collider | CERN
The Large Hadron Collider The Large Hadron Collider (LHC) is the world’s largest and most powerful particle accelerator It consists of a 27-kilometre ring of superconducting magnets with a number of accelerating structures to boost the energy of the particles along the way
- Facts and figures about the LHC - CERN
How was the LHC designed? Scientists started thinking about the LHC in the early 1980s, when the previous accelerator, the LEP, was not yet running In December 1994, CERN Council voted to approve the construction of the LHC and in October 1995, the LHC technical design report was published
- LHC - CERN
LHC Seven experiments at the Large Hadron Collider (LHC) use detectors to analyse the myriad of particles produced by collisions in the accelerator These experiments are run by collaborations of scientists from institutes all over the world Each experiment is distinct and characterised by its detectors
- Experiments - CERN
LHC experiments Nine experiments at the Large Hadron Collider (LHC) use detectors to analyse the myriad of particles produced by collisions in the accelerator These experiments are run by collaborations of scientists from institutes all over the world Each experiment is distinct and characterised by its detectors
- LHC the guide FAQ - CERN
LHC the guide FAQ How many kilometres of cables are there in the LHC magnets? How low is the pressure in the beam pipe? Discover facts and figures about the Large Hadron Collider in this handy LHC guide: CERN-Brochure-2021-004-Eng pdf
- ALICE detects the conversion of lead into gold at the LHC
In a paper published in Physical Review Journals, the ALICE collaboration reports measurements that quantify the transmutation of lead into gold in CERN’s Large Hadron Collider (LHC) Transforming the base metal lead into the precious metal gold was a dream of medieval alchemists This long-standing quest, known as chrysopoeia, may have been motivated by the observation that dull grey
- Accelerator Report: The LHC wraps up its first 2025 physics block
The first proton–proton physics block of the 2025 LHC schedule concluded on 19 June at 6 00 a m It delivered 24 fb-1 of integrated luminosity to the ATLAS and CMS experiments, slightly below the forecast (26 fb-1) because of some time-consuming issues in the LHC Indeed, while the physics run has progressed broadly as expected so far, the results have not been obtained without challenges
- Grand collisionneur de hadrons - CERN
Grand collisionneur de hadrons Le LHC est l’accélérateur de particules le plus grand et le plus puissant du monde C'est un anneau de 27 kilomètres de circonférence, formé de milliers d'aimants supraconducteurs et doté de structures accélératrices pour accroître l'énergie des particules à chaque passage
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