Hello everyone,
I am an independent researcher and have developed a deterministic model called Dimensional Expansion. I recently published the full article on Zenodo and am seeking technical feedback from this community.
Central concept:
The universe is a three-dimensional hypersurface (interface) between two layered superfluids in an accelerated four-dimensional hypersphere.
Key achievements of the model:
Fundamental constants: Using very few parameters, the model derives the fine-structure constant (α) with an accuracy of 10 decimal places, the gravitational constant (G), the speed of light (c), the electric charge (e), and the Hubble constant (H0).
• Mass as resonance: Mass is explained as standing waves formed by recurring cavitation bubbles at the fluid's "weak points."
• Gravity: It is modeled as a surface meniscus caused by the spin (vortex) of double-nucleus particles. It coincides with the Schwarzschild solution as the mechanical boundary of the interface.
• Dark Matter: Instead of particles, it is explained as density variations in the upper layer of the fluid, creating concave menisci that bend light.
• Entanglement: It is resolved as superluminal (but finite) resonance through an underlying rigid substrate, avoiding "spooky action" and maintaining determinism.
Reason for my post:
I have managed to resolve the Vacuum Catastrophe by treating it as equilibrium pressure, and I want to discuss whether this fluid dynamic approach to General Relativity and Quantum Mechanics is valid for you.
https://doi.org/10.5281/zenodo.19775086
Thanks for your time and for the honest critique!