Here we look at the principles behind the recent experimental determination of the anomalous magnetic moment of the muon from the Fermilab Muon g-2 Experiment. We look at how an antimuon interacts with an applied magnetic field and see how parity-violating decays of the muon allow the determination of the spin direction. We see how these are used to determine g-2 of the muon.
References:
Recent papers from the experiment:
Phys.Rev.Lett. 126 (2021) 14, 141801:
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Phys.Rev.D 103 (2021) 7, 072002:
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TDR:
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Past conference notes:
EPJ Web Conf. 212 (2019) 05003
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Nuovo Cim.C 43 (2020) 2-3, 50:
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Other links mentioned in the video:
Spherical Cows!:
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What is g-2 of the Muon? Part I:
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Fermilab Apr. 7 seminar:
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Measuring Muon g-2
Теги
muon g-2anomalous magnetic momentexperimentfnalfermilabg-2 of the muonmuonpositronantimuonanti-muonparticle physicsparticlephysicssciencematheducationlearningprobabilitystatisticsdata analysisdata sciencediscoveryfive sigma5 sigmacernacceleratormagnetmagnetic moment of the muonrelativitytime dilationparticle decayparity violationv-astandard modelnew physics
