Part 16: The Properties of Gravitational Fields
Layered Structure, Directional Flow, and Coherent Memory
Graviton Pressure Theory (GPT) redefines gravity not as curvature, force, or attraction, but as the structured behavior of coherence under pressure. This framework introduces gravitons 136 as directional, oscillatory agents that move inward along coherence gradients, forming gravitational fields through dynamic interaction rather than static geometry. Mass, in GPT, is not the source of gravity—it is the resonance core where coherence is retained, and from which structured field behavior emerges.
This document details the properties and behavior of gravitational fields as layered, phase regulated systems composed of shell structures, impedance boundaries, and coherence corridors 138. Each shell arises from the lateral redirection of gravitons that fail to phase-lock with the central resonance core, forming quantized, persistent structures that govern motion, memory, and inter-field resonance. Through this lens, phenomena such as orbital banding, ring gaps, gravitational lensing, galactic rotation curves, and spacecraft anomalies are no longer mysterious—they are coherent outcomes of a stratified, feedback-based field architecture. Gravitational fields in GPT are not emitted—they are sculpted by what is resisted, redirected, and retained. They do not pull—they respond, they sort, they structure. In this view, gravity is not a background condition—it is an active, living scaffold of coherence, rhythm, and structural memory. The result is a complete paradigm shift: gravity is no longer the curvature of space—it is the pattern of coherence revealed through persistent inflow and the structure it leaves behind.
Graviton Pressure Theory (GPT) abandons metaphor and replaces it with mechanism. In this framework, gravity is not a slope or a curve. It is a structured field—a coherent scaffold of oscillatory pressure, stratified flow, and resonance-regulated interaction. At the heart of this field is the graviton—not as a force particle in the traditional sense, but as a directional, oscillating agent of coherence. Gravitons do not pull or warp. They flow inward along gradients of coherence, carrying with them both pressure and structure. As they converge, interact, and saturate the central coherence node (what we call mass), they form the entire architecture of the gravitational field from the inside out.
This field is not a static gradient. It is a living system, with properties that emerge from:
• Directional inflow
• Oscillatory phase behavior
• Phase filtering and temporal coherence
• Lateral decoherence and resonance shedding
• Nested interaction with other fields
Gravitational fields are thus not passive environments. They are active systems of resonance and resistance, structured by the ability of mass to regulate, reflect, and redirect incoming pressure. What follows in this document is an exploration of the properties of these fields—how they form, behave, interact, and persist. We will uncover their:
• Structure– how layered shells arise through lateral decoherence and phase rejection.
• Behavior– how motion is filtered, guided, and stabilized by resonance alignment.
• Interactivity– how fields couple, entrain, and exchange coherence across nested systems.
• Persistence– how the gravitational field acts as a memory echo of mass coherence, maintained by continuous inflow and core resonance. In short, gravity is no longer a passive side effect of mass—it is the expression of coherent structure under pressure.
Gravitons do not describe gravity—they build it.
And this document will describe, precisely, what they build.
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