(Toy-model) A Simple “Digital” Vacuum Composed of Space Voxels with Quantized Energetic States

Andrei-Lucian Drăgoi *

Independent Researcher, Bucharest, Romania.

*Author to whom correspondence should be addressed.


Abstract

Based on a plausible electro-gravitational scaling factor of nature, this paper proposes a relatively simple “digital” vacuum toy model (DVTM) based on a quantized 3D space composed of space voxels with quantized energetic states. DVTM contains a relatively small set observations and statements (the assumptions of the model) that may generate a relatively large number of explanations (on the common origin of both gravitational and inertial masses and Einstein’s special/general relativity) and predictions “inside” and beyond the Standard Model (SM) of particle physics: a model of movement, a Big Bounce universe and a unification pattern for all known fundamental fields. DVTM can be considered a kind of “patch” for some Loop Quantum Gravity theories (LQGTs) and for M-Theory (MT).

Keywords: Electro-gravitational scaling factor of nature, “digital” vacuum toy model (DVTM), quantized 3D space, space voxels with quantized energetic states, Standard Model (SM) of particle physics, model of movement, Big Bounce universe, unification pattern for all known fundamental fields, Loop Quantum Gravity theories (LQGTs), M-Theory (MT).


How to Cite

Drăgoi, Andrei-Lucian. 2018. “(Toy-Model) A Simple ‘Digital’ Vacuum Composed of Space Voxels With Quantized Energetic States”. Physical Science International Journal 18 (1):1-19. https://doi.org/10.9734/PSIJ/2018/41391.