Quantum Levitation – A Dual Interpretation from Standard Physics and Quarkbase Cosmology provides the first dual interpretation of quantum levitation that unifies the standard superconducting framework (Meissner effect, flux pinning, London–Ginzburg–Landau formalism) with the pressure–vorticity dynamics of Quarkbase Cosmology. Magnetic fields are reinterpreted as vorticity tubes of the etheric Ψ-field, while superconductors appear as regions of high Ψ-phase coherence that geometrically reject or channel these structures. The study explains levitation, locking, and flux quantization as explicit reorganizations of the underlying pressure field, offering a physically transparent mechanism behind superconducting phenomena. It further connects these ideas with graphene behavior, the Ψ-Cell, the Ψ-Coil, and new possibilities for engineered Ψ-coherent materials and contactless guiding architectures. The document serves both as a rigorous reinterpretation of known superconducting effects and as a roadmap for future Quarkbase-based technologies.
Date: Nov 26, 2025
Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827
Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International
Related links:
- https://zenodo.org/records/17718248
- https://archive.org/details/quantum_levitation_in_quarkbase_cosmology
- https://www.academia.edu/145248972/Quantum_Levitation_A_Dual_Interpretation_from_Standard_Physics_and_Quarkbase_Cosmology