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A Newly Reported Muon Wobble Could Break Physics as We Know It BEN TURNER, LIVE SCIENCE 8 APRIL 2021 The results from one of the most hotly-anticipated experiments in particle physics are in, and they could be about to fulfill every researcher s wildest dreams: They maybe, perhaps, could break physics as we know it.
Evidence taken from the Fermi National Accelerator Laboratory near Chicago appears to point to a minuscule subatomic particle known as the muon wobbling far more than theory predicts it should. The best explanation, according to physicists, is that the muon is being pushed about by types of matter and energy completely unknown to physics. ....
Particle research finding could break the laws of physics 7 Apr, 2021 11:06 PM 11 minutes to read The Muon g-2 particle storage ring in the MC-1 Building at Fermilab in Batavia, Illinois. Photo / Fermilab/US Department of Energy via The New York Times The Muon g-2 particle storage ring in the MC-1 Building at Fermilab in Batavia, Illinois. Photo / Fermilab/US Department of Energy via The New York Times New York Times By: Dennis Overbye Evidence is mounting that a tiny subatomic particle seems to be disobeying the known laws of physics, scientists have announced, a finding that would open a vast and tantalising hole in our understanding of the ....
Finding from particle research could break known laws of physics indiatimes.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from indiatimes.com Daily Mail and Mail on Sunday newspapers.
4 hours ago A mysterious magnetic property of subatomic particles called muons hints that new fundamental particles may be lurking undiscovered. In a painstakingly precise experiment, muons’ gyrations within a magnetic field seem to defy predictions of the standard model of particle physics, which describes known fundamental particles and forces. The result strengthens earlier evidence that muons, the heavy kin of electrons, behave unexpectedly. “It’s a very big deal,” says theoretical physicist Bhupal Dev of Washington University in St. Louis. “This could be the long-awaited sign of new physics that we’ve all hoped for.” Muons’ misbehavior could point to the existence of new types of particles that alter muons’ magnetic properties. Muons behave like tiny magnets, each with a north and south pole. The strength of that magnet is tweaked by transient quantum particles that constantly flit into and out of existence, adjusting the muon’s magnetism b ....
The muon s magnetic moment fits just fine A new estimate of the strength of the sub-atomic particle s magnetic field aligns with the standard model of particle physics The muon s magnetic moment fits just fine Sam Sholtis April 07, 2021 UNIVERSITY PARK, Pa. An extensive new calculation of the strength of the magnetic field around the muon a sub-atomic particle similar to, but heavier than, an electron closes the gap between theory and experimental measurements, bringing it in line with the standard model that has guided particle physics for decades. A paper describing the research by an international team of scientists appears April 8 in the journal Nature. ....