Rare phenomenon observed by ATLAS features the LHC as a high-energy photon collider

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During the International Conference on High-Energy Physics (ICHEP 2020), the ATLAS collaboration presented the first observation of photon collisions producing pairs of W bosons, elementary particles that carry the weak force, one of the four fundamental forces. The result demonstrates a new way of using the LHC, namely as a high-energy photon collider directly probing electroweak interactions. It confirms one of the main predictions of electroweak theory – that force carriers can interact with themselves – and provides new ways to probe it.

Oldřich Kepka from the Institute of Physics of the Czech Academy of Sciences made a major contribution to this measurement. The use of the LHC as a source of photon collisions has been his research focus for a long time. “The observed W bosons pair production in a collision of two photons is a pinnacle of one stage of our research,” he points out. “In the previous years we used the lepton pair production as a more frequent process to demonstrate that we, indeed, are able to use ATLAS to identify cases of pair production occurring as a result of the collision of two photons. This time, we managed to record a much rarer process, which opens up new opportunities to study the unification of electromagnetic and weak interaction. 

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A 2018 ATLAS event display consistent with the production of a pair of W bosons from two photons, and the subsequent decay of the W bosons into a muon and an electron (visible in the detector) and neutrinos (not detected). (Image: CERN)
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A 2018 ATLAS event display consistent with the production of a pair of W bosons from two photons, and the subsequent decay of the W bosons into a muon and an electron (visible in the detector) and neutrinos (not detected). (Image: CERN)