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Roman Pasechnik

Senior lecturer

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Generalized Holographic Principle, Gauge Invariance and the Emergence of Gravity à la Wilczek

Author

  • Andrea Addazi
  • Pisin Chen
  • Filippo Fabrocini
  • Chris Fields
  • Enrico Greco
  • Matteo Lulli
  • Antonino Marcianò
  • Roman Pasechnik

Summary, in English

We show that a generalized version of the holographic principle can be derived from the Hamiltonian description of information flow within a quantum system that maintains a separable state. We then show that this generalized holographic principle entails a general principle of gauge invariance. When this is realized in an ambient Lorentzian space-time, gauge invariance under the Poincaré group is immediately achieved. We apply this pathway to retrieve the action of gravity. The latter is cast à la Wilczek through a similar formulation derived by MacDowell and Mansouri, which involves the representation theory of the Lie groups SO (Formula presented.) and SO (Formula presented.).

Department/s

  • Theoretical Particle Physics - Undergoing reorganization

Publishing year

2021-06-07

Language

English

Publication/Series

Frontiers in Astronomy and Space Sciences

Volume

8

Document type

Journal article

Publisher

Frontiers Media S. A.

Topic

  • Astronomy, Astrophysics and Cosmology

Keywords

  • black hole information loss problem
  • emergent gravity
  • gauge invariance
  • holographic principle
  • Wilczek gravity

Status

Published

ISBN/ISSN/Other

  • ISSN: 2296-987X