Scientists are using trapped ions in cutting-edge experiments to hunt for signs of an undiscovered particle that might help unravel the mystery of dark matter. The Standard Model of particle physics o ...

Scientists are using trapped ions in experiments to search for signs of a new particle that could help explain the mysterious ...

After six years of collecting data, the muon g-2 experiment released its results and could chart a new path for particle physics.

In a groundbreaking study published in Physical Review Letters, physicists from ETH Zurich, in collaboration with teams from ...

Silver-110’s decay reveals a promising path to measure antineutrino mass. New data could reshape future neutrino studies.

"We will push the limits of what we can observe, and use every gravitational lens we detect with Roman to pin down the ...

The most exciting possible avenue for physics beyond the standard model of particle physics has been, for years, the discrepancy in the anomalous magnetic moment of the muon. After refinement in ...

As few as five electrons in a semiconductor can exhibit collective behaviour, forming a “Coulomb liquid”, according to researchers in Europe. This extends the study of correlated systems to electron ...

But here, the standard Feynman-diagram methods have a comeback through the realization that the four-loop finiteness could be explained using a more sophisticated 'harmonic superspace' formalism 9 ...

Collaboration has obtained a high-precision cosmic-ray boron spectrum in the energy range of 10 GeV/n–8 TeV/n, and discovered ...