What question did this study set out to answer?

The study aims to reframe materials science by considering coherence field architectures and substrate alignment.

February 8, 2026Open Access

MID/QC Applied Substrate Series 16 - Coherence Native Materials: Substrate Aligned Matter, Metastable Structures, and Tension Engineered Properties

Puntos clave

The study aims to reframe materials science by considering coherence field architectures and substrate alignment.
Interpreted mechanical and electrical properties through tension geometry and coherence alignment.
Explored metastable coherence structures and their implications on material behavior.
Established connections between coherence well depth and material properties.
Identified coherence native materials with unique emergent properties.
Demonstrated that substrate alignment governs material behavior effectively.
Revealed relationships between tension geometry and superconductivity in materials.

Resumen

This paper reframes materials science through the MID/QC lens, interpreting matter as coherence field architecture rather than atomic composition. Mechanical, electrical, thermal, and magnetic properties emerge from tension geometry, coherence well depth, and torsion channel alignment. The paper introduces coherence native materials, tension engineered lattices, and metastable coherence structures, establishing substrate alignment as the governing principle of material behavior. Topics include coherence well networks, torsion neutral conductivity, metastable phase control, substrate native superconductivity, and failure as coherence boundary collapse. This work completes the first paper of the Applied Substrate Engineering cluster.

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