Cosmological data suggest unexpected masses for neutrinos, including the possibility of zero or negative mass.

Physicists on the CMS experiment announce the most elaborate mass measurement of a particle that is notoriously difficult to study and has captivated the physics community for decades.

Deep inside what we perceive as solid matter, the landscape is anything but stationary. The interior of the building blocks ...

Compact Muon Solenoid Experiment at Large Hadron Collider, CERNW boson candidate event with a reconstructed muon (red line) ...

Kennesaw State University researchers Nikolaos Kidonakis and Marco Guzzi have received their second joint grant from the ...

Deep inside what we perceive as solid matter, the landscape is anything but stationary. The interior of the building blocks of the atom's nucleus -- particles called hadrons that most of us would ...

Ghost imaging “creates possibilities for long-timescale dynamic imaging that does not damage live samples,” says laser ...

SoundHealth launched a new feature in its AI-powered health care app that will give users personalized allergy forecasts to ...

Geared for discovery more so than delicacy, the LHC is defying expectations by rivalling lepton colliders for precision.

Researchers have discovered tiny time delays in electron activity within molecules when exposed to X-rays, a groundbreaking ...

Do we need new physics? That question is being asked – again – after surprising new findings about how the universe we live ...

The study traces dark matter using hydrogen in the Lyman-Alpha forest, revealing tensions between observed cosmic data and ...