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Microphysical Extensions: Topology, Spectrum, Confinement, and Scale Continuity (Complete Derivations and Step-by-Step Analysis)

by Adam Chakchaev

Posted: November 10, 2025
Server: Preprints.org
DOI: 10.20944/preprints202511.0589.v1

We present the microphysical extensions of Quantum Informational Relativity (QIR), built upon the informational field p(x) and the geometric modulation Z(p). This work develops, with full derivations, five complementary aspects: (i) the topological classification of stationary solutions and the emergence of particle families; (ii) perturbative quantization around informational solitons and the resulting mass spectrum; (iii) parameter mapping and experimental correspondence; (iv) an informational confinement mechanism consistent with strong interactions; (v) macro–micro continuity linking cosmology and particle structure. The framework preserves covariance, generalized conservation, and the unified Einstein equation with Z appearing in the numerator.

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