Published July 4, 2026 | Version v12

Photonic Projection of Atomic Structure and a Unified Theory of Space Compression Model

  • 1. Mount San Jacinto College

Description

Abstract

This paper presents a novel mechanical framework for universal physics, the Space Compression Model (SCM), derived from nine years of direct visual observation of atomic structures. Utilizing high-resolution projection through Atomic Gravitational Lensing, we identify the atom as a separable gyroscopic system consisting of a Central Compression Core (CCC)—a one-way spatial intake—and an outer boundary of nested density spheres. We demonstrate how this singular mechanical engine simultaneously resolves multiple foundational gaps in modern physics: it provides the physical machinery for Electromagnetism (shared helical tracks), identifies Gravity as a volumetric consumption gradient, and offers a mechanical resolution to the Yang-Mills Mass Gap by defining mass as trapped kinetic momentum (Kinetic Capture). By differentiating these structures from standard optical artifacts, we establish a rigorous, repeatable methodology for the direct observation of quantum mechanical systems.

 

 

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Cites
Preprint: 10.5281/zenodo.15216749 (DOI)
Is supplemented by
Dataset: 10.5281/zenodo.15253253 (DOI)