Physicists have observed quantum entanglement between quarks — the fundamental building blocks of protons and neutrons — for ...

A central aim of the ATLAS Higgs physics program is to measure, with increasing precision, the strength of interactions of ...

Since its 2012 detection, the Higgs boson has fascinated researchers for its unique role in separating forces of nature. Find ...

If you buy through a BGR link, we may earn an affiliate commission, helping support our expert product labs. It’s been over half a decade since scientists working with the Large Hadron Collider ...

Scientists have measured the strange quantum phenomenon of entanglement in top quarks, the heaviest fundamental subatomic particles known. It’s the first detection of entanglement between pairs of ...

Higgs production in association with a W boson has the same final state as ... assuming single top quarks are produced at their Standard-Model rate, is 11%. The other two analyses agree with ...

Understanding the nature of dark matter is a significant frontier in particle physics. This paper reports a milestone experimental result from the ATLAS collaboration at the Large Hadron Collider (LHC ...

The equations of string theory could give rise to elementary particles like those currently known (electrons, quarks ... The graviton and the Higgs boson have not yet been experimentally confirmed.

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

The emission of beta radiation provides evidence that neutrons and protons are made up of quarks. Beta (\(\beta^-\)) decay is the release of an electron by the change of a neutron to a proton.

Particle measurements at the Large Hadron Collider open the door to future high-energy tests of entanglement.