Black hole firewall paradox dismissed
Washington: A new study has dispelled the so-called firewall paradox which shocked the physics community when it was announced in 2012 since its predictions about large black holes contradicted Einstein`s crowning achievement-the theory of general relativity.
Those results suggested that anyone falling into a black hole would be burned up as they crossed its edge-the so-called event horizon.
Now Professor Sam Braunstein and Dr. Stefano Pirandola at the University of York have extinguished the fire.
In a new study, they invoke quantum information theory, a modern branch of quantum mechanics that treats light and atoms as carriers of information. The key insight from quantum mechanics is the existence of `spooky` quantum entanglement across a black hole`s event horizon.
"Quantum mechanics shows that entanglement can exist across the event horizon, between particles inside and outside the black hole. But should this entanglement ever vanish, a barrier of energetic particles would be created: an energetic curtain (or firewall) would descend around the horizon of the black hole," explained Professor Braunstein.
"We are the first to show the necessity of entanglement across all black hole event horizons and to consider what happens as black holes age. The greater the entanglement, the later the curtain descends. But if the entanglement is maximal, the firewall never occurs. Indeed, entanglement has long been believed to exist for some types of black holes, taking on exactly this maximum value. Our work confirms and generalizes this claim," he added.
Stephen Hawking was the first to consider information flow in black holes, arguing that aging black holes must hoard information about everything they swallow.
Professor Braunstein stated: "When quantum mechanics, and in particular entanglement, are included in the story, Hawking`s prediction holds for the longest time possible. Our results not only back up Einstein`s theory of gravity, but also point to quantum information theory as a powerful tool for disentangling the deep mysteries of the universe."
Professor Braunstein and Dr. Pirandola, of the Department of Computer Science at York, collaborated with Professor Zyczkowski , of the Institute of Physics, Jagiellonian University, Krakow, Poland.
Their findings were reported in a paper published in Physical Review Letters.
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