The Greenberger–Horne–Zeilinger (GHZ) paradox describes how quantum theory cannot be described by local realistic descriptions. A study takes this GHZ paradox to new heights to see just how ...

In high-intensity laser–matter interactions, including laser-induced particle acceleration, physicists generally want to work ...

Classical and quantum mechanics don’t really get along as the science of the subatomic can get, well, weird. Take, for instance, quantum entanglement, which says that the state of one particle can be ...

KAIST researchers achieve 18.1% light-emission efficiency in indium phosphide magic-sized clusters through innovative ...

Scientists are learning to engineer light in rich, multidimensional ways that dramatically increase how much information a ...

Searches for dark matter particles have come up empty so far, driving theorists to get more creative with their ideas. When you purchase through links on our site, we may earn an affiliate commission.

Harry is a U.K.-based senior staff writer at Live Science. He studied marine biology at the University of Exeter before training to become a journalist. He covers a wide range of topics including ...

CERN, a center for physics research outside Geneva, Switzerland, is best known for discovering some of the building blocks of our universe. But scientists there are also studying new ways to treat ...

Atomic level surface control raised light emission in indium phosphide magic sized clusters from under 1% to 18.1%, ...

Here’s what you’ll learn when you read this story: The Greenberger–Horne–Zeilinger (GHZ) paradox describes how quantum theory cannot be described by local realistic descriptions. A study takes this ...