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Beyond Physics: New Research is Revealing the Fundamental Nature of Subatomic Particles

In Brief

•   Scientists were able to get new measurements of 'ghost particles,' or neutrinos – elementary particles that don't have electric charge.

•   The new measurements could answer fundamental questions about the properties of neutrinos and could help fill gaps in the Standard Model of Particle Physics.

Ghost Busting

The Standard Model – the theory that describes the behavior of fundamental particles at every energy scale scientists have been able to measure – is accurate, but leaves “gaping holes.” Scientists continue to question the nature of dark matter, and how a universe filled with matter, rather than anti-matter, arose from the Big Bang.

Scientists have been on the lookout for clues that will answer these questions, and some turn towards particles called neutrinos. Dubbed ‘ghost particles,’ neutrinos are elementary particles that don’t have electric charge. Trillions of these particles pass through us every second. While we know they exist, we don’t know what role neutrinos play in the universe. Further, neutrinos are extremely hard to measure because they’re also at least a million times lighter than any other particle known to science.

Researchers from Michigan State University (MSU) succeeded in finding new measurements of these strange particles, captured by the IceCube Neutrino Observatory at the South Pole. These findings were presented at the American Physical Society Meeting in Washington.

According to the research, neutrinos change types as they travel. There are three different types of neutrinos, each corresponding to a charged particle. “Neutrinos have a habit of changing, or oscillating, between three types, we call them ‘flavors,'” said MSU research associate Joshua Hignight. “So, if one neutrino is a precisely equal mix of two flavors, it could be a surprising coincidence or there might be a deeper reason for it coming from the physics beyond the Standard Model.” The data IceCube gathered suggests that one neutrino species may actually comprise exactly equal amounts of two neutrino “flavors.”


IceCube Neutrino Observatory

 

Filling the Gaps

“As physicists, we hoped the Higgs boson would point us to the physics that lies beyond the Standard Model; unfortunately, our measurements of the Higgs haven’t turned up many clues,” said Tyce DeYoung, associate professor of physics and astronomy at MSU. “So we hope we may find something by studying neutrinos. IceCube detects neutrinos with a wider range of energies and distances than other experiments, so we cast a wide net.”

The IceCube Observatory at the South Pole measures neutrinos produced by cosmic rays that hit the Earth’s atmosphere, which makes the Antarctic ice a unique particle detector. The new measurements could answer fundamental questions about the properties of neutrinos and could help fill gaps in the Standard Model of Particle Physics.

While their measurements match results from other experiments using neutrinos with lower energies, it remains debatable whether this flavor mixture is exactly balanced. As such, IceCube physicists will continue to collect data and refine their analysis.


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Last modified on Friday, 03 February 2017 16:50

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