Executable Gravity: Admissibility as the Condition of Physical Existence

What is gravity? What does it mean for something to exist? For more than a century, modern physics has lacked a principle that answers these foundational questions. This work introduces Executable Gravity, a new theoretical framework that addresses the problem that neither Einstein’s General Relativity nor Quantum Theory—whether considered separately or in attempts at unification—has been able to resolve: the condition under which physical configurations can exist.

Executable Gravity redefines gravity not as the curvature of spacetime, but as the curvature of admissibility—the structural condition that determines which configurations are permitted to exist. This shift provides a unified perspective across quantum phenomena, astrophysical structures, and heliospheric space‑weather events.

Einstein’s General Relativity is reinterpreted as a smooth projection of admissibility curvature in stable regimes. Quantum correlations and holographic dualities are understood not as generative mechanisms, but as observational projections of an underlying admissibility structure.

Instead of asking “What happens?”, Executable Gravity asks: “What is permitted to exist?”

 

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🔵 Four‑Scale Empirical Reinforcement

The theory is supported by structural consistency across four distinct domains:

S1 — Representation (Theoretical Domain)

Holography, duality, and entanglement operate at the level of representation and do not generate physical existence. They are projections of admissibility.

S2 — Astrophysics (Galactic Scale)

XRISM observations of the starburst galaxy M82—its velocity dispersion, bifurcated outflows, and energy concentration—align with admissibility curvature and multi‑sovereign realization.

S3 — Quantum Scale

Experiments on the spin‑liquid material α‑RuCl₃ reveal anisotropy and electrical extraction patterns interpretable as admissibility gradients and projection structures.

S4 — Space‑Weather (Heliospheric Scale)

Multi‑point SEP observations from BepiColombo and STEREO‑A show delayed arrival, evolving mean free path, and large‑scale coherence consistent with dynamic admissibility variation.

Together, these domains demonstrate that representation‑based theories describe what is observed, while admissibility determines what can exist.

🔴 Scientific Positioning

Executable Gravity does not replace Einstein’s General Relativity or Quantum Theory. Instead, it provides the missing ontological principle that both theories presuppose but do not define:

• General Relativity assumes a spacetime manifold but does not explain why it exists.

• Quantum Theory assumes a state space but does not explain why certain states are realized.

• Unification attempts fail because the principle of existence is absent.

Executable Gravity supplies this missing principle through the admissibility condition

and the fixed‑point realization

🔵 Societal and Technological Impact

A structural understanding of admissibility—independent of metric, causality, or information—opens new design principles for complex systems:

• Space‑weather forecasting and radiation risk prediction

• Distributed systems and AI, through executable‑state control

• Quantum devices and materials, via stability‑driven design

• Space exploration and infrastructure, through environment‑dependent admissibility modeling

These applications arise because admissibility directly governs which configurations can exist, not merely how they evolve.

🔴 Final Statement

Reality is not encoded. It is permitted. Gravity is not the curvature of spacetime, but the curvature of admissibility—the structural condition of existence itself.