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BEGIN:VEVENT
DTSTAMP:20260503T021334Z
UID:https://www.mpq.mpg.de/events/42936/5381624
DTSTART:20250909T093000Z
CLASS:PUBLIC
CREATED:20250908T151631Z
DESCRIPTION:Our search for a quantum theory of gravity is aided by a unique
  and perplexing feature of the classical theory: General Relativity alread
 y knows about its own quantum states (the entropy of a black hole)\, and a
 bout those of all matter (via the covariant entropy bound). The results we
  are able to extract from classical gravity are inherently non-perturbativ
 e and increasingly sophisticated. Recent breakthroughs include a derivatio
 n of the entropy of Hawking radiation\, a computation of the exact integer
  number of states of some black holes\, and the construction of gravitatio
 nal holograms in our universe using techniques from single-shot quantum co
 mmunication protocols.\nSpeaker: Prof. Raphael Bousso (UC Berkely)
LAST-MODIFIED:20250908T151631Z
LOCATION:          Herbert Walther Lecture Hall\, MPI für Quantenoptik\, G
 arching
ORGANIZER;CN="MPQ, Theory Division":mailto:
SUMMARY:Special Seminar: Gravity as a Quantum Computer (Prof. Raphael Bouss
 o)
URL;VALUE=URI:https://www.mpq.mpg.de/events/42936/5381624
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