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Colloquium
May 8, 2023

Hour: From 12:00h to 13:00h

Place: ICFO Auditorium

COLLOQUIUM SERIES: Quantum Entanglement and the Geometry of Spacetime

ROBERTO EMPARAN
ICREA Prof at the Dept of Quantum Physics and Astrophysics and the Institute of Cosmos Sciences, Universitat de Barcelona

PROFILE:

Roberto Emparan earned his PhD in Physics from the University of the Basque Country. He has worked at the University of California in Santa Barbara, the University of Durham, and CERN. Since 2003, he has been an ICREA professor working at the Department of Quantum Physics and Astrophysics and the Institute of Cosmos Sciences at the University of Barcelona. His research focuses on the structure of spacetime, gravity, and black holes.

ABSTRACT:

The holographic principle, a fundamental concept in quantum gravity, suggests that spacetime is a geometric manifestation of quantum entanglement. This idea implies that classical objects like black holes and wormholes are, in essence, highly entangled quantum systems. In this talk, I will explain what this means, and illustrate how entanglement is the key to understanding the geometry of space as an emergent notion. The talk will be geared towards those with a background in quantum physics but possibly less exposed to general relativity.

Colloquium
May 8, 2023

Hour: From 12:00h to 13:00h

Place: ICFO Auditorium

COLLOQUIUM SERIES: Quantum Entanglement and the Geometry of Spacetime

ROBERTO EMPARAN
ICREA Prof at the Dept of Quantum Physics and Astrophysics and the Institute of Cosmos Sciences, Universitat de Barcelona

PROFILE:

Roberto Emparan earned his PhD in Physics from the University of the Basque Country. He has worked at the University of California in Santa Barbara, the University of Durham, and CERN. Since 2003, he has been an ICREA professor working at the Department of Quantum Physics and Astrophysics and the Institute of Cosmos Sciences at the University of Barcelona. His research focuses on the structure of spacetime, gravity, and black holes.

ABSTRACT:

The holographic principle, a fundamental concept in quantum gravity, suggests that spacetime is a geometric manifestation of quantum entanglement. This idea implies that classical objects like black holes and wormholes are, in essence, highly entangled quantum systems. In this talk, I will explain what this means, and illustrate how entanglement is the key to understanding the geometry of space as an emergent notion. The talk will be geared towards those with a background in quantum physics but possibly less exposed to general relativity.

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