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| Format: | Recurso digital |
| Language: | English |
| Published: |
Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.19094323 |
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Table of Contents:
- <p><strong>This work details the numerical and geometric framework of Vacuum Crystallography </strong></p> <p><strong>(VCV48). The core of the study is based on the description of the physical vacuum as </strong></p> <p><strong>a system with an underlying Oh symmetry (order 48), which is currently in a state of </strong></p> <p><strong>evolution or structural transition. </strong></p> <p><strong>The methodology presented herein focuses on the following descriptive points: </strong></p> <p><strong>ˆ Primordial Encoding: We treat particle masses as values established during the </strong></p> <p><strong>early stages of the universe. These masses are calculated based on the topological </strong></p> <p><strong>invariants and the geometric constraints of the Oh lattice at its formation scale. </strong></p> <p><strong>ˆ Lattice Parameters: The model utilizes observed astrophysical data—specifically </strong></p> <p><strong>the redshift space frequency ω0 ≈ 0.191 z </strong></p> <p><strong>−1 and the CMB birefringence δ = </strong></p> <p><strong>0.35◦—as the current measurable parameters of this vacuum medium. </strong></p> <p><strong>ˆ Numerical Traceability: We provide a complete calculation trace for leptons and </strong></p> <p><strong>nucleons. This trace connects the fine-structure constant (α), the projection factors </strong></p> <p><strong>of the Oh group, and the elastic terms of the lattice to the experimentally measured </strong></p> <p><strong>masses. </strong></p> <p><strong>ˆ Degeneracy and Dynamics: The framework acknowledges the dynamical nature </strong></p> <p><strong>of the vacuum crystal, where the speed of light (c) and the gravitational constants </strong></p> <p><strong>emerge from the lattice’s elastic response (ct = c/√ </strong></p> <p><strong>3), accounting for the current </strong></p> <p><strong>state of the medium. </strong></p> <p><strong>The following chapters provide the step-by-step derivation of these values, moving </strong></p> <p><strong>from the fundamental postulates of the Oh lattice to the precise numerical agreement </strong></p> <p><strong>with experimental particle physics data.</strong></p>