Article
Version 3
Preserved in Portico This version is not peer-reviewed
Recovery of Global Symmetries in a 't Hooftian Universe
Version 1
: Received: 20 July 2021 / Approved: 22 July 2021 / Online: 22 July 2021 (11:27:52 CEST)
Version 2 : Received: 19 September 2021 / Approved: 21 September 2021 / Online: 21 September 2021 (11:14:01 CEST)
Version 3 : Received: 14 December 2021 / Approved: 15 December 2021 / Online: 15 December 2021 (11:51:54 CET)
Version 2 : Received: 19 September 2021 / Approved: 21 September 2021 / Online: 21 September 2021 (11:14:01 CEST)
Version 3 : Received: 14 December 2021 / Approved: 15 December 2021 / Online: 15 December 2021 (11:51:54 CET)
How to cite: Furtado Neto, A. Recovery of Global Symmetries in a 't Hooftian Universe. Preprints 2021, 2021070513. https://doi.org/10.20944/preprints202107.0513.v3 Furtado Neto, A. Recovery of Global Symmetries in a 't Hooftian Universe. Preprints 2021, 2021070513. https://doi.org/10.20944/preprints202107.0513.v3
Abstract
All fundamental Planck scale symmetries are restored on a global level when a new charge is postulated in a finite, closed, Euclidean discrete space. Gravity emerges as a residual effect of the electromagnetic force in this scenario, resulting in a deterministic toy universe driven by a single input parameter. The model is developed using a constructive approach. Randomness is identified using a Chaintin argument. Aleph0 definite value is tied to the size of the universe. This is not an interpretation of Quantum Mechanics, but a deeper attempt to describe nature.
Supplementary and Associated Material
https://github.com/automaton3d/automaton: Source code repository
Keywords
cellular automaton; nonlocality; emerging gravity; unification; cardinality
Subject
Physical Sciences, Quantum Science and Technology
Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Commenter: Alexandre Furtado Neto
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