How Netta Engelhardt of MIT and colleagues found a way to reconcile the basic theories of physics, Quantum physics and Einstein’s theory of relativity. You’re about to discover what ‘unitarity’ is
How Netta Engelhardt of MIT and colleagues found a way to reconcile the basic theories of physics, Quantum physics and Einstein’s theory of relativity. You’re about to discover what ‘unitarity’ is
How Netta Engelhardt of MIT and colleagues found a way to reconcile the basic theories of physics, Quantum physics and Einstein’s theory of relativity. You’re about to discover what ‘unitarity’ is
CERN Winter School on Supergravity, Strings and Gauge Theory 2021 (via Zoom) home.cern - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from home.cern Daily Mail and Mail on Sunday newspapers.
(For the Holiday Season, from Christmas through New Year’s Day. we’ll post 2020’s most viewed articles as ranked by Google Analytics.)
It has been said that Newton gave us answers; Stephen Hawking gave us questions. A trio of scientists are one step closer to resolving the black-hole information paradox, one of the most intriguing physics mysteries of our time.
“That is the most exciting thing that has happened in this subject, I think, since Hawking,” said one of the co-authors, Donald Marolf of the University of California, Santa Barbara.
“It’s from that mysterious area where relativity and quantum mechanics don’t quite mesh, that the question of what happens to information in a black hole emerges,” says ” says researcher Henry Maxfield at the University of California, Santa Barbara in calculating the quantum information content of a black hole and its radiation.