The Dimensional Evolution research corpus, published as DOI-archived scientific manuscripts.
Each paper is archived under a permanent DOI (Digital Object Identifier), ensuring long-term public access, independent timestamping, and scholarly citability.
The foundational paper introducing collapse curvature, resonance shells, tether networks, and coherence geometry across all physical scales.
The axiomatic foundation of the Dimensional Evolution framework, defining pre-thermodynamic laws governing asymmetry, entropy, heat, dissipation, fields, geometry, and irreversibility. This paper establishes the structural principles underlying all subsequent Dimensional Evolution works.
The geometric principle governing identity stability and survival across all scales.
Gravity reformulated as collapse curvature shaped by resonance pressure and tether geometry.
How collapse funnels and shell layering scale from quantum to planetary and cosmological systems.
Entanglement described as inverse-domain geometric symmetry rather than nonlocal signaling.
Superposition reframed as deterministic resonant scan states within inverse-domain structure.
A geometric replacement for dark matter, explaining galactic rotation curves, gravitational lensing, and halo-like curvature through out-of-phase resonance shells and collapse geometry.
A geometric replacement for dark energy, describing accelerated expansion, shell rebalancing, and early structure formation, including JWST observations, within the Dimensional Evolution framework.
A geometric and resonance-based foundation for biology, describing living systems as coherence-preserving identity structures governed by collapse curvature, multi-shell organization, DNA harmonic geometry, biofields, healing, evolution, and consciousness within the Dimensional Evolution framework.
A comprehensive reconstruction of quantum measurement, addressing wavefunction collapse, observer interaction, historical inconsistencies, and geometric resolution within the Dimensional Evolution framework.
A geometric reconstruction of electricity, magnetism, and energy transfer, showing that voltage, current, inductance, capacitance, and field collapse emerge from coherence flow and collapse-curvature geometry rather than charge motion or field transport.
A geometric resolution of the quantum measurement paradox underlying cloud-chamber tracks.
A geometric reinterpretation of the Dirac equation within the Dimensional Evolution framework, addressing negative energy states, spinor structure, and measurement consistency.
A structural reinterpretation of heat as localized entropic resolution rather than dissipated or lost energy. The paper demonstrates how geometry, constraint, and asymmetry determine where heat appears across electrical, mechanical, and thermodynamic systems, without modifying established conservation laws.