Quantum theory fails to explain how the reality we experience emerges from the world of particles. A new take on quantum ...

Encouraged by successes in understanding black holes, theoretical physicists are applying what they’ve learned to whole ...

Black hole research sits at the crossroads of gravity, quantum physics and high-performance computing, yet it is often ...

A recent experiment at Fermilab has delivered intriguing results that challenge standard predictions, adding fuel to the ...

"Hearst Magazines and Yahoo may earn commission or revenue on some items through these links." The Greenberger–Horne–Zeilinger (GHZ) paradox describes how quantum theory cannot be described by local ...

That quantum mechanics is a successful theory is not in dispute. It makes astonishingly accurate predictions about the nature of the world at microscopic scales. What has been in dispute for nearly a ...

If you don’t finish reading this article it may never be written. If that’s not incentive to abandon a boring news piece, we’re not sure what is. A team of researchers from Australia recently ...

Researchers have developed a new quantum version of a 150-year-old thermodynamical thought experiment that could pave the way for the development of quantum heat engines. Mathematicians from the ...

A new Swinburne study is addressing a core paradox: if quantum computing is solving problems that cannot be checked by conventional methods, how can we be certain the results are correct? Quantum ...