What does this research mean for the field?

Quantum superposition is a manifestation of the universe's finite computational bandwidth, which is deterministically resolved into a single state by topological friction and the bulk viscosity of the modular vacuum. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.ESTABLISHES_NEW_DIRECTION.

What question did this study set out to answer?

This research aims to resolve divergences in quantum mechanics using the Schrödinger-Hernández-Valdivia equation and explore its implications for state resolution.

May 16, 2026Open Access

The Schrödinger-Hernández-Valdivia Equation: Resolving Quantum Superposition via Information Saturation and Topological Friction

Puntos clave

This research aims to resolve divergences in quantum mechanics using the Schrödinger-Hernández-Valdivia equation and explore its implications for state resolution.
Establishment of the SHV equation as a unified framework connecting quantum mechanics with Navier-Stokes equations.
Introduction of Topological Friction and the Hernández-Valdivia Limit as mechanisms for wavefunction collapse.
Analysis of Bulk Viscosity in the modular vacuum as a catalyst for deterministic state resolution.
The SHV equation resolves informational divergences in quantum mechanics.
Identification of Bulk Viscosity (ζHV) leads to a deterministic collapse of the wavefunction.
Successful integration of quantum mechanics with classical fluid dynamics through the Hernández-Valdivia Modular Paradigm.

Resumen

This paper establishes the Schrödinger-Hernández-Valdivia (SHV) equation as the definitive resolution to the informational divergence in quantum mechanics, unifying it with the previous resolution of Navier-Stokes singularities under the Hernández-Valdivia Modular Paradigm. We postulate that quantum superposition is a manifestation of the "Continuum Fallacy" (C∞)—a processing error where the mathematical model demands an infinite bandwidth that the underlying computational fabric of the universe does not possess. We introduce Topological Friction (Hfriction), governed by the Hernández-Valdivia Limit (εHV ≈ 10-70 m2), as the safety mechanism that arrests state branching and forces the deterministic resolution of the wavefunction. By identifying the Bulk Viscosity (ζHV) of the modular vacuum as the agent of collapse, we resolve the Gödel-Stokes Paradox and define the universe as a self-limiting finite-state machine.

Leer artículo completoexternamente

Me gusta

Guardar

Ver artículo completo