Could misbehaving muons upend the known laws of physics?
From Discover, June 23, 2021: Muons drew the attention of physicists around the world after an experiment at Fermilab demonstrated that they’re far more magnetic than expected.
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From Discover, June 23, 2021: Muons drew the attention of physicists around the world after an experiment at Fermilab demonstrated that they’re far more magnetic than expected.
From Tec Review, April 28: Tec Review interviews Fermilab’s David Tarazona about his role and experience with the Muon g-2 experiment.
From Tia Sang (Vietnam), April 27, 2021: Fermilab keeps a strong connection with nature and history where he places modern accelerators, through her messenger of nature – the American bison.
From Marianne TV (France), April 21, 2021: An interview on the Muon g-2 experiment result with Laurent Lellouch, CNRS research director at the Theoretical Physics Center and the Universe Physics Institute.
From Physics Today, April 22, 2021: Shirley Ann Jackson, the renowned high-energy physicist, was the first Black woman to earn a doctorate from MIT and did her postdoctoral years at Fermilab and CERN.
From The 21st NPR Illinois, April 14, 2021: Fermilab scientist Brendan Kiburg discusses the Muon g-2 result with host Brian Mackey on the 21st Illinois talk show.
From Reccom Magazine, April 13, 2021: After decades of speculation, a Fermilab experiment showing an unexplained discrepancy from the Standard Model was raised to a confidence level of 4.2 sigma.
From Forbes, April 7, 2021: Don Lincoln, senior scientist at Fermilab, explains that a new measurement announced by Fermilab last week goes a long way towards telling us if the venerable theory will need revising.
From New Scientist, April 7, 2021: The strange behavior of a fundamental particle called a muon may hint at the existence of exotic particles and forces beyond the standard model of physics.
From CNN, April 7, 2021: Fermilab’s senior scientist Don Lincoln explains the Muon g-2 experiment’s single measurement tells scientists the standard model of particle physics is incomplete — and has to be rethought.