One of the laments of recent in pop-sci articles on physics has been a lack of new physics, despite the fact that there’s a gap in how to meld quantum physics with gravity. Yesterday, however, The New York Times reports a possible breakthrough, also known as breaking the Standard Model:
The particle célèbre is the muon, which is akin to an electron but far heavier, and is an integral element of the cosmos. Dr. Polly and his colleagues — an international team of 200 physicists from seven countries — found that muons did not behave as predicted when shot through an intense magnetic field at Fermilab.
The aberrant behavior poses a firm challenge to the Standard Model, the suite of equations that enumerates the fundamental particles in the universe (17, at last count) and how they interact.
But in all fairness:
The measurements have about one chance in 40,000 of being a fluke, the scientists reported, well short of the gold standard needed to claim an official discovery by physics standards. Promising signals disappear all the time in science, but more data are on the way. Wednesday’s results represent only 6 percent of the total data the muon experiment is expected to garner in the coming years.
Messing about with what resembles ghosts is quite the tricky thing:
Muons are an unlikely particle to hold center stage in physics. Sometimes called “fat electrons,” they resemble the familiar elementary particles that power our batteries, lights and computers and whiz around the nuclei of atoms; they have a negative electrical charge, and they have a property called spin, which makes them behave like tiny magnets.
But they are 207 times as massive as their better-known cousins. They are also unstable, decaying radioactively into electrons and super-lightweight particles called neutrinos in 2.2 millionths of a second.
And so, at least for some quantum physicists, there is hope in physics-town.