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| Format: | Recurso digital |
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Zenodo
2025
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| Online Access: | https://doi.org/10.5281/zenodo.17844665 |
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Table of Contents:
- <p>[cite_start]</p> <div> <div><span>\rightarrow \mathbf{\text{The material known as "Tinkellite" represents a new phase of matter: Stabilized Scalar Matter (SSM)[cite: 103]. [cite_start]This paper details the theoretical synthesis protocol for creating a novel crystalline structure that resists thermal and physical degradation[cite: 104]. [cite_start]Unlike conventional materials, Tinkellite's atomic lattice is reinforced by deliberately embedding the Longitudinal Scalar Potential (\Phi) (released via the 12-Coil Array) into the interstitial space of the crystal[cite: 105]. [cite_start]This process effectively converts the atomic structure into "Light Ice," where the vacuum pressure supplies an internal stabilizing force, resulting in anomalous properties: extreme, non-conventional hardness (exceeding hexagonal diamond) and zero thermal expansion (anomalous thermal resistance)[cite: 106]. [cite_start]This material is essential for any structure operating at the limits of the GUFF physics[cite: 107].}}</span></div> </div>