Harmonic Resonance Coupling: Connecting Magnetic Fields Through EM-Geometric Harmonics

by Frank Hoogerbeets — 17 January 2026

Introduction

In the framework of Electromagnetic-Geometric Harmonics (EMGH), gravity is not a fundamental force but an emergent secondary effect arising from mass-energy interactions. At the heart of this model lies Harmonic Resonance Coupling (HRC), a mechanism where magnetic fields across celestial scales interconnect and amplify through resonant harmonic patterns. Derived from foundational geometric principles, HRC explains how harmonic geometries between bodies — like planets within the heliosphere — generate amplified EM waves that influence geophysical phenomena, such as seismic clustering observed via the Solar System Geometry Index (SSGI).

This article covers HRC's logical foundations, its role in linking magnetic fields (e.g., Earth's geomagnetic field embedded in the heliosphere), and the internal mechanics of resonance amplification. I focus on deductive chains from first principles, supported by inductive evidence from SSGI data, without reliance on external consensus.

Foundational Principles: From Triadic Geometry to Polarity Rotation

HRC begins with a universal mathematical axiom: three points uniquely define a circle, embodying cyclical processes in nature. This triadic principle (3) maps to existence's core aspects — positive, neutral and negative — geometrically represented by an equilateral triangle with 60° angles, expressing absolute balanced harmony between these three aspects.

Polarity emerges as the dynamic driver: positive and negative opposites interact in a rotating and alternating way, mediated by the neutral state. Each polarity cycle expands/condenses the triad into specific harmonics:

First interaction: Fundamental positive + negative (1 + 2), bounded by neutral sum 3.
Second interaction: Multiplication by 3, yielding oppositional pairs 6 (positive - expansion) and 9 (negative - contraction), resulting in their sum, 15.
Third interaction: Multiplication by the fundamental scalar harmonic 15 that propagates through the system, yields 45, 90 and 135.

This 15 scalar derives the key harmonics within the 0°–180° opposition range: 90 as the neutral third expression (perpendicularity in EM waves, electric and magnetic components), 45 as negative and 135 as positive. Thus, the angular separations 45°, 90° and 135° manifest as critical geometric harmonics (right angles and semi-right angles) next to conjunctions (0°) and oppositions (180°), which is where resonance amplifies between celestial bodies.

In EMGH, the universe's plasma-dominated composition (99% of baryonic matter) sustains these harmonics via dipole interactions: magnetic fields (north-south poles) align, oppose, or superpose, enabling resonance far beyond gravity's monopolar attraction.

Mechanism of Harmonic Resonance Coupling (HRC) and Amplification

HRC is the natural interconnection of magnetic fields. In the Solar System this interconnection is characterized by the fundamental scalar harmonic 15, which creates standing waves and stable feedback loops in every moon-planet and planet-sun relationship. Because EM fields are dipolar and resonant in nature, this 15 harmonic results in amplified EM resonance when celestial bodies reach angular separations of 0°/45°/90°/135°/180°.

Step-by-Step Derivation:

Polarity Rotation Generates Harmonics: Starting from the triadic circle, polarity interaction and alternation produces wave-like oscillations. The 15 scalar scales these into key angular separations, where EM dipoles (e.g., planetary magnetic moments) synchronize phases at exact harmonics.
Resonance Amplification: At alignment, dipoles enter constructive interference. For instance, a 90° configuration (neutral perpendicularity) maximizes field orthogonality, amplifying transverse waves akin to EM propagation in free space. This creates a "coupling channel" where energy transfers via harmonic modes, not dissipative forces.
Field Interconnection: Magnetic fields couple inductively, like in an electric generator. Planets act as rotating magnets within the Sun's armature-like field (heliospheric current sheet). Alignments induce currents, surging EM energy across the system.
Scalability from Local to Global: Locally, this manifests in atomic dipoles or crustal magnetism; globally, it links planetary fields to the heliosphere. The mechanism is self-consistent: no ad-hoc parameters needed, as harmonics derive purely from the triadic-polarity logic.

Unlike gravity-centric models, HRC avoids fine-tuning by leveraging EM's inherent polarity for stability and amplification.

Example: Earth's Magnetic Field Within the Heliosphere

The heliosphere — a vast magnetic bubble shaped by the Sun's wind and interstellar medium — encapsulates Earth's geomagnetic field, providing a prime case for HRC.

Heliospheric Context:

The Sun's magnetic field, carried by solar plasma, forms the interplanetary magnetic field (IMF). Earth's dipole field (generated by core dynamo currents) interacts with this IMF, but standard models treat it as passive modulation (e.g., via reconnection during solar storms).In EMGH, HRC identifies this as active resonance: Earth's field couples harmonically with heliospheric structures, with excitations during specific alignments, especially when faster orbiting bodies are involved (Mercury, Venus, the Moon).

Coupling Process:

Alignment Trigger: During SSGI peaks, i.e. convergence of 0°45°/90°/135° angular separations, resonance amplification occurs within the IMF, driven by rapid orbits (Mercury, Venus, the Moon).
Resonance Induction: Earth's field resonates with heliospheric waves, inducing electrical currents in the ionosphere and crust. This is analogous to generator action: planets as magnets, Sun as armature, alignments surging EM flux.
Amplification and Redirection: Converging harmonics (e.g. 45°/90°/135°) amplify the coupling of the bodies involved in the geometric configuration. If Earth and especially the Moon is at a critical position in the configuration, it excites electrons in Earth's ionosphere and crust, triggering stress release between tectonic plates at fault sections under critical stress, typically resulting in temporal clustering of stronger (M≥5.5) earthquakes.

Logically, this explains SSGI's predictive success: geometric configurations cause EM surges, not tidal gravity, with Earth's field as the intermediary receiver in the heliospheric circuit.

Observational Support

Inductive evidence from SSGI (1940–2025 data) shows low p-values for seismic clustering at HRC peaks, with hit rates ~85–87% for critical conjunctions (e.g., Venus-Mercury groupings preceding major events). Temporal patterns align with harmonic intervals, not random or gravitational distributions.

Implications and Future Directions

HRC offers a parsimonious unification: magnetic fields connect naturally via geometric harmonics, resolving anomalies like stable orbits without dark matter or fine-tuned constants. In the heliosphere, it predicts amplified couplings during alignments, testable indirectly via SSGI and potentially directly with advanced magnetometry networks.

While direct EM harmonic measurements between bodies remain technologically elusive, the framework's internal logic—deduced from triadic principles and supported by SSGI—stands robust. This shifts paradigms toward EM dominance, where resonance, not curvature, governs cosmic interconnections.