4.4 Article

Probing the Information-Probabilistic Description

Journal

Publisher

SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s10773-022-05129-3

Keywords

Information conservation; Generalized Landauer's principle; Entanglement dark energy; Black Hole paradoxes

Funding

  1. Shota Rustaveli National Science Foundation of Georgia [DI-18-335]

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The study investigates the application of the information conservation principle to classically isolated systems such as the Hubble sphere and black holes. The authors accept the analogy of Landauer's principle and estimate the contributions of entanglement information to dark energy, finding that it can explain the dark energy of the Universe and resolve the controversies surrounding superluminal motion and redshift of black holes.
The information conservation principle is probed for classically isolated systems, like the Hubble sphere and black holes, for which the rise of entanglement entropy across their horizons is expected. We accept the analogy of Landauer's principle that entanglement information should introduce some negative potential energy, which corresponds to the positive energy of measurements that destroy this quantum behavior. We estimated these dark-energy-like contributions and found that they can explain the dark energy of the Universe and also are able to resolve the observed superluminal motion and redshift controversies for black holes.

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