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First blood to Atlas at the Large Hadron Collider

The massive detector has beaten a rival instrument to the LHC's first sighting of W boson particles, a milestone on the road to fresh discoveries
Rediscovering the W boson
Rediscovering the W boson
(Image: Atlas Experiment / CERN)

IT鈥橲 first blood to the massive Atlas detector at the Large Hadron Collider. Just days after the physics programme started, Atlas has reported its first detection of W boson particles.

W bosons have been seen at other colliders, but before any of the detectors at the LHC can attempt to discover new particles they must 鈥渞ediscover鈥 established ones. It is 鈥渁n excellent sign鈥 to spot the particles so soon, says Fabiola Gianotti, who heads the Atlas team. 鈥淚t demonstrates that both the LHC accelerator and Atlas work extremely well.鈥

W bosons decay almost instantly into leptons and neutrinos. On two occasions since the machine began collisions at 7 teraelectronvolts last month, the leptons 鈥 either a positron or a muon 鈥 have been detected in Atlas鈥檚 calorimeter and muon chambers. Neutrinos do not interact with the detector, but their presence was inferred from the imbalance of the decay鈥檚 total momentum 鈥 its 鈥渕issing energy鈥 (see diagram).FIG-mg27564001.jpg

The detection is interesting in its own right as new particles, such as the Higgs boson, have been predicted to decay into W bosons, says Atlas physicist Andreas Hoecker. 鈥淲 bosons are really very central.鈥

David Barney, a member of the rival CMS detector collaboration, points to an 鈥渆lement of healthy competition between the two big general-purpose detectors鈥. He says that many interesting events will be needed from both detectors to produce a complete picture.

Topics: Large Hadron Collider / Particle physics