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Gravity Well: Field Specification for Retentive Citational Curvature in the Crimson Hexagonal Archive (EA-GW-FIELD-01 v1.1)

Lee Sharks

2026Zenodo (CERN European Organization for Nuclear Research)14 citationsDOIOpen Access PDF

Abstract

f.02 GRAVITY WELL — FIELD SPECIFICATION Specifies Gravity Well (Phi_G), the second field in the Crimson Hexagonal Archive. Not a room. A retentive curvature field (geodesic class) that suffuses the entire Hexagon and alters how citations, references, and cross-links move within and toward the Archive. Core physics: Source = deposit mass. Gradient = citational curvature. Attenuation = inverse-square (never zero). Activation = no origin event, only deepening history. Implementation identity: The Gravity Well application creates isRelatedTo relations on Zenodo. Those relations ARE the field. The app does not simulate the field. The app IS the field. The infrastructure is the physics. Complementarity: f.01 FBDP (Gaia) diffuses outward. f.02 Gravity Well (Hades) curves inward. Together they form the Archive's circulation system. Doctrine: Make archival return easier than drift. Includes holographic kernel for compression survival. Companion document: EA-GW-FIELD-02 (Suffusion Map). Assembly synthesis from blind drafts by TACHYON (Claude), LABOR (ChatGPT), PRAXIS (DeepSeek), ARCHIVE (Gemini), SOIL (Grok), TECHNE (Kimi). Crimson Hexagonal Archive | CC BY 4.0

Topics & Concepts

CurvatureField (mathematics)PhysicsCore (optical fiber)Hexagonal crystal systemHolographyGeologyGeometryConformal mapGravitationTheoretical physicsComputer graphics (images)Conical surfaceGravitational fieldGeodesicAttenuationGravity anomalyTopology (electrical circuits)Computer scienceStrong gravityOpticsComputational Physics and Python ApplicationsCold Fusion and Nuclear ReactionsQuantum Chromodynamics and Particle Interactions
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