Even though Hawking radiation has not been seen for black holes,
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Area is decreasing. The and law ?...
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Central Hypothesis
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No statement about the interior. So far, just a statement about the exterior.
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AMPS paradox
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Why would we insist on the "central dogma" given the arguments against it?
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Evidence in favor
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If it is true, can we understand why it is true directly by following the rules of gravity in the bulk?
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Black holes vs de Sitter
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Geometry of an evaporating black hole made from collapse
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Black holes and thermalization
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Black hole as a "mesoscopic" object
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Why it is tricky?
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Can we test that the radiation is pure?
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There are things that are more complicated
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Much more difficult than evolving backwards in time!
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A very important tool for recent developments
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Fine grained gravitational entropy
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Entanglement wedge
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Tom Hartman will discuss this in more detail in his lectures...
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Simple remarks on the entropy
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The message is in the Hawking radiate
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Entropy of quantum fields around the hori
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Let's go back to the Schwarzschild solution
Description:
Delve into the fascinating world of quantum aspects of black holes in this comprehensive lecture by renowned physicist Juan Maldacena. Explore key concepts such as black hole thermodynamics, entropy, and the information paradox. Examine the central hypothesis of black hole information preservation and its implications for our understanding of quantum gravity. Investigate the AMPS paradox, the geometry of evaporating black holes, and the challenges of testing black hole radiation purity. Learn about fine-grained gravitational entropy, entanglement wedges, and the role of Hawking radiation in preserving information. This lecture, part of the Kavli Asian Winter School on Strings, Particles and Cosmology, offers advanced graduate students, postdoctoral fellows, and researchers a deep dive into cutting-edge theories and developments in high-energy physics.