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Quantum information in curved spacetime

Class at Faculty of Mathematics and Physics |
NTMF095

Syllabus

Preliminary content:

1) Measuring quantum fields: UDW detectors, quantum optics approximation

2) Unruh effect: Gibbs, KMS condition, detailed balance

3) Quantum detection of spacetime features

4) Entanglement harvesting

5) Quantum collect calling

6) Quantum energy teleportation

Annotation

In this course, we shall study some fascinating phenomena that arise when the fields of general relativity, quantum field theory, and quantum information are put together. In particular, we shall discuss how to locally measure quantum fields in curved spacetime by using particle Unruh-de Witt (UdW) detectors, and show how such detectors can be used to uncover global spacetime features.

We shall also review the Unruh effect, study entanglement harvesting, discuss quantum energy teleportation, and more. Basic knowledge of general relativity and quantum theory is required.