The theorized unseen structure of spacetime could also explain of the outstanding questions about the accelerating expansion ...

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

The masses of fundamental particles such as the Z and W bosons could have arisen from the twisted geometry of hidden ...

Physicists are exploring whether hidden dimensions and the shape of space could help explain why fundamental particles have ...

A new measurement by CERN’s ATLAS Collaboration has strengthened evidence that the masses of fundamental particles originate through their interaction with the Higgs field. Building on earlier results ...

Exotic spin-dependent interactions represent a promising avenue for probing physics beyond the Standard Model. These interactions, hypothesised to be mediated by new light bosons, couple to the ...

Particle and nuclear physics evokes evokes images of huge accelerators probing the extremes of matter. But in this round-up ...

At the heart of every atomic nucleus, the strong interaction quietly dictates the structure of matter, yet for decades one of its simplest products refused to fit the script. The way fragile “light ...

Next head of Cern backs massive replacement for world’s largest machine to investigate mysteries of the universe ...

Secondary particle tracks recorded during a proton collision inside the ATLAS detector, indicating the presence of a single Higgs boson in the event. Since the launch of the Large Hadron Collider, ...

A team of scientists finds a way to evaluate highly complex Feynman integrals. How does the world look like at the smallest scales? This is a question scientists are trying to answer in particle ...