Deterministic Impulsive Vacuum Foundations for Quantum-Mechanical Wavefunctions
By assuming that a fermion de-constitutes immediately at source, that its constituents, as bosons, propagate uniformly as scalar vacuum terms with phase (radial) symmetry, and that fermions are unique solutions for specific phase conditions, we find a model that self-quantizes matter from continuous waves, unifying bosons and fermion ontologies in a single basis, in a constitution-invariant process. Vacuum energy has a wavefunction context, as a mass-energy term that enables wave collapse and increases its amplitude, with gravitational field as the gradient of the flux density. Gravitational and charge-based force effects emerge as statistics without special treatment. Confinement, entanglement, vacuum statistics, forces, and wavefunction terms emerge from the model’s deterministic foundations.
- Duality
- Vacuum
- Matter
- Fermion
- Quantization
- Boson
- Entanglement
- Wavefunction
- Symmetry
- Weak Interaction
- Strong Force
- Coherence
- Neutrino Oscillation