Lorentzian Holographic Gravity and the Time-Energy Uncertainty Principle
Jan 30, 20243 pages
Published in:
- JHAP 4 (2024) 1, 65-70
- Published: Mar 1, 2024
e-Print:
- 2401.17458 [hep-th]
DOI:
- 10.22128/jhap.2024.780.1068,
- 10.22128/JHAP.2024.780.10687 (publication)
View in:
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Abstract: (Damghan University)
In this article, we present a heuristic derivation of the on-shell equation of the Lorentzian classicalized holographic tensor network in the presence of a non-zero mass in the bulk spacetime. This derivation of the on-shell equation is based on two physical assumptions. First, the Lorentzian bulk theory is in the ground state. Second, the law of Lorentzian holographic gravity is identified with the time--energy uncertainty principle. The arguments in this derivation could lead to a novel picture of Lorentzian gravity as a quantum mechanical time uncertainty based on the holographic principle and classicalization.Note:
- 3 pages, revtex
- Holographic Principle
- Quantum Entanglement
- Holographic Tensor Network
- Classicalization
- gravitation: holography
- network: tensor
- uncertainty relations
- space-time
- ground state
- quantum mechanics
References(29)
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