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Juan Maldacena, who first came to the Institute as a Member in 1999, has been a Professor in the School of Natural Sciences since 2002. He continues to study a relationship he has proposed between quantum gravity and quantum field theories in an effort to further understand the deep connection between black holes and quantum field theories as well as connections between string theory and ...
21. März 2023 · Juan Maldacena. During the past decades, theorists have been studying quantum mechanical systems that are believed to describe black holes. We review one of the simplest examples. It involves a collection of interacting oscillators and Majorana fermions. It is conjectured to describe a black hole in an emergent universe governed by Einstein ...
3. Sept. 2013 · 3rd Sep 2013. TH. Juan Maldacena is one of the most influential theoretical physicists in the world. His work focuses on quantum gravity, string theory and quantum field theory and it involves different problems such as quark confinement and black holes. Back in 1997, he proposed the famous anti-de Sitter/conformal field theory correspondence ...
3. Juni 2013 · Cool horizons for entangled black holes. Juan Maldacena, Leonard Susskind. General relativity contains solutions in which two distant black holes are connected through the interior via a wormhole, or Einstein-Rosen bridge. These solutions can be interpreted as maximally entangled states of two black holes that form a complex EPR pair.
JUAN MART IN MALDACENA Personal Date of Birth: September 10, 1968 Place of Birth: Buenos Aires, Argentina Nationality: US citizen, Argentina, Italy Address: Institute for Advanced Study, School of Natural Sciences, 1 Einstein Drive, Princeton, NJ 08540 USA Telephone: (609) 734-8307 Fax Number: (609) 951-4489 E-mail: malda@ias.edu
23. Juni 2017 · Maldacena stunned the physics world again in 2013 with a cryptic message first delivered in an email to fellow physics giant Leonard Susskind: “ER = EPR.” It meant that wormholes, hypothetical connections between far-apart black holes also known as Einstein-Rosen bridges (ER), are mathematically equivalent to entangled particles, sometimes called Einstein-Podolsky-Rosen pairs (EPR).
9. Jan. 2020 · The increasing entropy of a black hole that evaporates by emitting Hawking radiation is at odds with the predictions of quantum mechanics. Juan Maldacena discusses the latest advances in solving ...
