Macroscopic Magnetic Monopole Device presents the first complete engineering blueprint for a physically realizable magnetic monopole within the framework of Quarkbase Cosmology. Building on the interpretation of the magnetic field as etheric vorticity in the Ψ-field, the work demonstrates how displaced Ψ-vortices in twisted bilayer graphene can be phase-aligned and flux-summed to yield a macroscopic, unipolar magnetic output. The device uses thousands of engineered Ψ-modules, each hosting a stabilized vortex with a confined return string, integrated through a ferromagnetic micro-yoke network. A multi-scale collector plate, central flux-chimney, and a fully internal return-manifold channel all compensate flux internally, ensuring that only one external magnetic pole is detectable—while still satisfying ∇·B = 0 at the global level. The full document includes: • detailed physical principles and Quarkbase electrodynamics, • vortex engineering in TBG, • anisotropic stiffness landscapes and strain-pinned vortex cores, • 3D CAD-ready mechanical architecture, • cryogenic system, THz longitudinal-mode pump, phase-coherence strategy, • operational modes, safety constraints, calibration and failure-mode analysis. The result is a 35 mm × 18 mm hand-held solid device that behaves externally as a magnetic monopole and inaugurates the field of Macroscopic Etheric-Topology Devices
Date: Dec 05, 2025
Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827
Resource type: Preprint
Publisher: Zenodo
License: CC0 Open Engineering Specification
Related links:
- https://zenodo.org/records/17825885
- https://archive.org/details/macroscopic_hand_held_magnetic_monopole_device
- https://www.academia.edu/145300083/Macroscopic_Hand_held_Magnetic_Monopole_Device