Unified Physics from Vacuum Compactation

Modern physics describes nature using separate fundamental interactions: gravitation, electromagnetism, and the nuclear forces. Each interaction is assigned its own field, symmetry, and mediator.

Quarkbase Cosmology adopts a different ontology: there are no fundamental forces. All physical phenomena emerge from the organization and compactation of a single physical vacuum.

Why Forces Are Not Fundamental

Forces are descriptive constructs. They summarize regularities in motion and interaction, but they do not represent primitive physical entities.

In Quarkbase Cosmology, what is fundamental is the vacuum itself: a real physical medium capable of pressure, geometry, and structural organization.

Axiom:
Interactions are emergent manifestations of vacuum geometry, not fundamental forces.

Vacuum Compactation as the Common Origin

All physical entities are compactations of the vacuum. The smallest stable compactation is the neutrino quarkbase (N=1).

Higher compactations (N > 1) produce effective properties such as mass, charge, and interaction behavior.

Different interaction regimes correspond to different geometric and pressure configurations of vacuum compactations.

Electromagnetic Phenomena Reinterpreted

Electromagnetic effects arise from asymmetric vacuum compactation and pressure flow.

What is described as electric charge corresponds to directional vacuum imbalance. Magnetic phenomena reflect rotational vacuum structure.

No independent electromagnetic field is required at the fundamental level.

Nuclear Phenomena Without Fundamental Forces

Strong and weak interactions are not separate forces. They are regimes of extreme vacuum compactation at small scales.

Stability, decay, and confinement emerge from geometric constraints on compacted vacuum structures, not from force carriers.

Gravity as the Macroscopic Limit

At large scales, vacuum pressure gradients dominate, producing gravitational behavior.

Gravity is therefore the large-scale limit of the same vacuum dynamics that govern microscopic structure.

A Single Ontology Across Scales

From neutrino oscillations to galaxy rotation to cosmological structure, the same principles apply: vacuum compactation, pressure gradients, and geometry.

There is no need to unify forces, because they were never separate.

Conclusion:
Unified physics is not the unification of forces, but the recognition of a single physical substrate.

Connections to Other Domains

For the role of the neutrino quarkbase, see:

What is a neutrino, really?

For gravitational emergence, see:

Vacuum pressure and gravity

For cosmological implications, see:

A theory without dark matter