Physicists Discover a Possible smash in the Standard Model of Physics


In Brief


Physicists from UC Santa Barbara and elsewhere discovered a phenomenon that doesn’t follow one of the basic assumptions held by the Standard Model of Physics, after the teams reviewed three separate experiments.

Breaking the Lepton Universality

In order to earn sense of the physical world, scientists acquire worked tough to discover theories and principles that govern the physics of matter. This is what’s called the Standard Model of Physics, which includes whole the laws and principles concerning matter in whole its forms and sizes. Bascially, the Standard Model applies to even particle physics. Or so it should.

Scientists from the University of California at Santa Barbara (USCB) and colleagues from various other institutions acquire recently discovered that there might be a smash in the application of the Standard Model, particularly with a fundamental principle called the lepton universality. Their discovery comes from reviewing the data from three separate experiments conducted in the United States, Switzerland, and Japan.

But before we jump into the details of the study published in the journal Nature, a small backgrounder is in order. The lepton universality is an assumption concerning elementary particles called leptons, which don’t undergo strong interactions. Supposedly, lepton universality asserts that the interactions of these particles are the same, regardless of differences in masses and decay rates. The three experiments reviewed in the studies are charged leptons, which are electrons, muons, and the heavier taus.

Challenging the Norms of Physics

whole three experiments revealed that taus actually decay faster than the standard model predicts. The surprising thing was the data which came from the LHCb experiment at CERN in Switzerland, the BaBaR detector of the SLAC National Accelerator Laboratory in California, and the Belle experiment in Japan challenged lepton universality at four standard deviations. This means that there’s a 99.95 percent certainty that this data is accurate, according to the USCB team.

“The tau lepton is key, because the electron and the muon acquire been well measured. Taus are much harder because they decay very quickly,” USCB’s Franco Sevilla said in a press release. “Now that physicists are able to better study taus, we’re seeing that perhaps lepton universality is not convinced as the Standard Model claims.”

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Initial reading into these results would seem to indicate that there is indeed a deviation from the Standard Model of particle physics. This could mean that an entirely different model of physics is needed to clarify the peculiar behavior of the tau particle. In other words, current physics is required. That’s not a simple thing, as these principles often correlate with one another. A change in one could affect the others.

Sevilla admitted that they aren’t entirely certain yet how this would play out. “We’re not certain what confirmation of these results will mean in the long term,” he explained. “First, we need to earn certain that they’re honest, and then we’ll need ancillary experiments to determine the meaning.”



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