Some innovations in physics come from entirely new technologies, others from fresh theoretical insights. Others still take ...

A tiny discrepancy in particle physics has loomed for decades as an exciting possible crack in one of science's most ...

A neglected force produced by neutrinos and other particles helps atomic physics measurements align with predictions of the ...

In 2021, the first result from the Muon g-2 experiment at Fermilab confirmed a two-decade-old measurement from Brookhaven, ...

Collaboration that made precise measurement of the g-2 value honored with $3 million from the Breakthrough Prize in ...

A tiny discrepancy in particle physics has loomed for decades as an exciting possible crack in one of science’s most successful theories, hinting at unknown forces or quantum objects. Now, an ...

A scientist from Tokyo Metropolitan University has proposed using safety monitoring at synchrotron facilities to study the properties ...

Gaseous detectors have long been an integral component of particle physics, providing essential data for tracking charged particles and elucidating complex event topologies in high-energy experiments.

From its resting place outside Chicago, Illinois, a long-defunct experiment is threatening to throw the field of elementary particles off balance. Physicists have toiled for ten years to squeeze a ...

This article explores the intriguing realm of particle physics with Vitrek’s comprehensive document on scattering experiments. Learn how incident particles strike targets, resulting in scattered ...

Neutrinos have about as little influence as a particle can have. They have essentially no heft, no electric charge, and no “color” charge. As a result, the neutrino has no connection with most of ...

The famous double slit experiment shows that particles can travel on two paths at the same time -- but only by looking at a lot of particles and analysing the results statistically. Now a ...