k Protonphi interaction at LHC Visualisation of the interaction observed between a proton left and a phi meson right as they emerged from a protonproton collision at the Large Hadron Collider LHC at CERN European Particle Physics Laboratory in 2021. The proton has two up and a down quark yellow, while the phi meson has strangeantistrange quarks red. Since the phi meson is not electrically charged, the interaction between the proton and the phi can only be attributed to the residual strong interaction. The LHC collisions produce hadrons very close to each other at femtometre distances, which matches the range of the residual strong force. This gives the hadrons a brief opportunity to interact before flying away. Understanding the strong force that governs the behaviour of quarks helps scientists understand how particles bind together at a fundamental level., by David Dobrigkeit ChinellatoCERNSCIENCE PHOTO LIBRARY Stock Photo - Afloimages
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Proton phi interaction at LHC Visualisation of the interaction observed between a proton left and a phi meson right as they emerged from a proton proton collision at the Large Hadron Collider LHC at CERN European Particle Physics Laboratory in 2021. The proton has two up and a down quark yellow , while the phi meson has strange antistrange quarks red . Since the phi meson is not electrically charged, the interaction between the proton and the phi can only be attributed to the residual strong interaction. The LHC collisions produce hadrons very close to each other at femtometre distances, which matches the range of the residual strong force. This gives the hadrons a brief opportunity to interact before flying away. Understanding the strong force that governs the behaviour of quarks helps scientists understand how particles bind together at a fundamental level., by David Dobrigkeit Chinellato CERN SCIENCE PHOTO LIBRARY
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Proton-phi interaction at LHC

Visualisation of the interaction observed between a proton (left) and a phi meson (right) as they emerged from a proton-proton collision at the Large Hadron Collider (LHC) at CERN (European Particle Physics Laboratory) in 2021. The proton has two up and a down quark (yellow), while the phi meson has strange-antistrange quarks (red). Since the phi meson is not electrically charged, the interaction between the proton and the phi can only be attributed to the residual strong interaction. The LHC collisions produce hadrons very close to each other at femtometre distances, which matches the range of the residual strong force. This gives the hadrons a brief opportunity to interact before flying away. Understanding the strong force that governs the behaviour of quarks helps scientists understand how particles bind together at a fundamental level., by David Dobrigkeit Chinellato/CERN/SCIENCE PHOTO LIBRARY

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