Researchers from TUM, working at CERN, have made a groundbreaking discovery that reveals how deuterons are formed. Another long-standing question in particle physics has been answered. Scientists ...

After a decade of painstaking measurements, scientists have delivered a major plot twist in particle physics: a ...

Scientists have taken a major step toward solving a long-standing mystery in particle physics, by finding no sign of the particle many hoped would explain it.

Results from a major Fermilab experiment have found no evidence for the elusive sterile neutrino, narrowing one of particle physics’ most debated mysteries.

With contributions from Brown faculty and students, the LUX-ZEPLIN experiment analyzed the largest dataset ever collected by ...

"Precision in these measurements is critical, as even subtle discrepancies could signal deviations from the model — potentially revealing new physics." ...

Two papers challenged the existence of theorized particles called sterile neutrinos that might account for mysteries like the cosmos’s dark matter.

For more than 40 years, physicist John Conway has led research in high-energy particle physics, a field driven by a simple ...

After a decade at Fermilab, scientists found no evidence for the sterile neutrino. MicroBooNE ruled it out with 95% certainty ...

Neutrinos are low-mass subatomic particles with zero electric charge that interact with matter only via the weak nuclear force and gravity. This makes neutrinos difficult to detect, despite the fact ...

Experimental particle physicists working at the MicroBooNE experiment at Fermilab National Accelerator Laboratory have found evidence ...

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 ...