Electromagnetism
This research area studies how electromagnetic structure may arise within Coherence Geometry from shared-amplitude, multi-channel phase dynamics. Instead of introducing electric charge, electric fields, magnetic fields, induction, and radiation as independent primitives, these papers investigate how source-like behavior, field circulation, wave propagation, polarization, energy flow, and Maxwell-type relations can emerge from phase alignment, torsional coherence, curvature, and projection. The geometric mechanism papers provide visual and numerical constructions, while the Foundations texts develop the corresponding algebraic formulation.
Publication List
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Electromagnetism from Coherence Geometry: Field Alignment, Wave Propagation, Lorentz Interactions, and Coherence-Driven Radiation
CGI-RSR-000019 | This work presents a reformulation of classical electromagnetism using Coherence Geometry (CG) — a deterministic framework in which electric and magnetic phenomena emerge from the dynamics of structured phase alignment rather than fundamental vector fields.
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Toward a Mechanism of Charge: A Criterion-Based Approach Using Coherence Geometry
CGI-RSR-000018 | This paper presents a geometric mechanism for electric charge, grounded in localized curvature within a structured coherence field rather than in fundamental particles.
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Coherence Geometry Foundations, Part II: Physical Projections
CGI-BKS-0002 | Part II of the Coherence Geometry Foundations working reference text. It examines how quantum-like linear dynamics, causal and relativistic structure, residual coherence strain and cosmological background terms, electromagnetic field structure, thermodynamic behavior, and macroscopic transport can be represented as domain-level projections of the shared-amplitude, multi-phase coherence framework.

