'Tantalizing' results of 2 experiments defy physics rulebook

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'Tantalizing' results of 2 experiments defy physics rulebook

In this 2018 photo made available by CERN, Nikolai Bondar works on the LHCb Muon system at the European Organization for Nuclear Research Large Hadron Collider facility outside of Geneva. Preliminary results published in 2021 of experiments from here and the Fermilab facility in the U.S. challenge the way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. (Maximilien Brice, Julien Marius Ordan/CERN via AP)
This 2018 photo made available by CERN shows the LHCb Muon system at the European Organization for Nuclear Research Large Hadron Collider facility outside of Geneva. Preliminary results published in 2021 of experiments from here and the Fermilab facility in the U.S. challenge the way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. (Maximilien Brice, Julien Marius Ordan/CERN via AP)
This August 2017 photo made available by Fermilab shows the Muon g-2 ring at the Fermi National Accelerator Laboratory outside of Chicago. It operates at -450 degrees Fahrenheit (-267 degrees Celsius) to detect the wobble of muons as they travel through a magnetic field. Preliminary results published in 2021 of experiments from here and the CERN facility in Europe challenge the way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. (Reidar Hahn/Fermilab via AP)

'Tantalizing' results of 2 experiments defy physics rulebook

In this 2018 photo made available by CERN, Nikolai Bondar works on the LHCb Muon system at the European Organization for Nuclear Research Large Hadron Collider facility outside of Geneva. Preliminary results published in 2021 of experiments from here and the Fermilab facility in the U.S. challenge the way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. (Maximilien Brice, Julien Marius Ordan/CERN via AP)
This 2018 photo made available by CERN shows the LHCb Muon system at the European Organization for Nuclear Research Large Hadron Collider facility outside of Geneva. Preliminary results published in 2021 of experiments from here and the Fermilab facility in the U.S. challenge the way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. (Maximilien Brice, Julien Marius Ordan/CERN via AP)
This August 2017 photo made available by Fermilab shows the Muon g-2 ring at the Fermi National Accelerator Laboratory outside of Chicago. It operates at -450 degrees Fahrenheit (-267 degrees Celsius) to detect the wobble of muons as they travel through a magnetic field. Preliminary results published in 2021 of experiments from here and the CERN facility in Europe challenge the way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. (Reidar Hahn/Fermilab via AP)
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