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A physics experiment performed at the National Institute of Standards and Technology (NIST) has enhanced scientists' understanding of how free neutrons decay into other particles. The work provides the first measurement of the energy spectrum of photons, or particles of light, that are released in the otherwise extensively measured process known as neutron beta decay. The details of this decay process are important because, for example, they help to explain the observed amounts of hydrogen and other light atoms created just after the Big Bang.

Published in Physical Review Letters, the findings confirm physicists' big-picture understanding of the way particles and forces work together in the universe--an understanding known as the Standard Model. The work has stimulated new theoretical activity in quantum electrodynamics (QED), the modern theory of how matter interacts with light. The team's approach could also help search for new physics that lies beyond the Standard Model.

Sounds like a prudent thing to do, given the precarious position of the Standard Model in leu of the latest data from CERN and ATLAS. To read more, click here.