The discovery of two entangled quarks at the large Hadron Collider is the highest-energy observation of entanglement ever ...

A report about the decay and half-life of different radioactive elements. It is impossible to predict when any one atom will decay but by looking at a number of atoms an average rate of decay can be ...

After an unexpected measurement by the Collider Detector at Fermilab (CDF) experiment in 2022, physicists on the Compact Muon ...

The CMS experiment at the Large Hadron Collider has precisely measured the W boson's mass, confirming the Standard Model's ...

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

A recent breakthrough has paved the way for timekeeping even more precise than the measurements performed by atomic clocks.

The heaviest antimatter nucleus to date was spotted in a particle accelerator. It could provide new insights into the nature ...

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 ...

New simulations suggest that there are enough primordial black holes—potential dark matter candidates—in the universe for one ...

Physicists are still hot on the trail of a substance that could change everything: dark matter in the form of primordial ...

"Hydrogen atoms bonded together in a molecule dissipate energy when they encounter a loose hydrogen atom. The hydrogen molecules ... unstable particles which can decay into photons, the particles ...

Particles in an atom’s nucleus, on the other hand ... this solid state system suppressed signals from nuclear decay, making desired signals easier to track. Earlier this year, other researchers ...