Primerfield Theory Science Papers
PrimerField (PF) Theory Papers
The papers listed below present PrimerField (PF) Theory, a unified physical framework developed to describe structured magnetic field geometry and its consequences across scales, from photons to astrophysical systems. These papers build progressively, with later results relying on concepts and experimental foundations established earlier. For this reason, readers are strongly encouraged to review the papers in the order presented. Together, they document the empirical basis, field architecture, and physical mechanisms underlying PF Theory, as well as its application to optical phenomena, plasma behavior, and large-scale cosmic structures.
Transverse Sensitivity Scale of Photons
When light passes near the edge of an object, the edge affects where photons are detected—even at surprising distances. This paper answers a simple question: how far sideways from an edge can light still be affected? The answer is about 2 millimeters for visible light, which represents thousands of wavelengths. This work establishes precise, quantitative constraints that any theory of light must be able to reproduce.
In addition, this paper provides the mathematical framework used within PrimerField (PF) Theory to determine the physical transverse extent of a photon’s electromagnetic field. These quantitative constraints serve as the empirical anchor for estimating the size of the PrimerField surrounding an individual photon and are used consistently throughout the PF literature
Field-Only, Lorentz-Invariant Formulation of PrimerField Theory
This paper presents a rigorous, field-only formulation of PrimerField (PF) Theory grounded in Lorentz-invariant nonlinear electrodynamics. It establishes the electromagnetic field as the sole fundamental entity, with matter entering only through source boundary conditions. The work defines core PF substructures—Choke Ring, Flip Ring, Confinement Dome, and Flip Point—as intrinsic geometric features of field solutions under bowl-shaped magnetic boundary conditions, not as additional media or auxiliary fields. A minimal invariant-based nonlinear action is proposed to permit stable, localized field-energy concentrations at the photon scale, while explicitly recovering Maxwell electrodynamics in the linear limit. The paper connects formal field equations to nearly two decades of laboratory plasma observations and introduces a field-only photon interpretation in which wavelength emerges from equilibrium spacing enforced by magnetic interaction rather than intrinsic oscillation or wavefunction postulates. PF_Field_Only_Invariant_Formula…
This paper is intentionally provided in a single technical form. Its content depends on precise mathematical definitions and invariant relationships that cannot be meaningfully simplified without risk of misinterpretation.
The Photon Is Not a Wave
This paper examines a foundational weakness in the standard model of light: while wave mathematics accurately predicts optical outcomes, it does not provide a physical mechanism for the behavior of individual photons. The paper argues that wave–particle duality is not a deep truth but a symptom of structural incompleteness. It introduces PrimerField (PF) Theory as an alternative framework in which photons are discrete, localized energy concentrations embedded within extended field structures. Within this framework, interference, diffraction, refraction, and double-slit behavior are reinterpreted as consequences of field-interaction geometry rather than intrinsic wave motion, collapse, or irreducible randomness. The paper is explicitly structural and qualitative, proposes clear experimental falsification conditions, and invites direct empirical testing rather than interpretive debate. The_Photon_Is_Not_A_Wave_v5
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