Abstract
This disclosure establishes the mathematical and geometric transition from classical Lorentz-Maxwell electrodynamics to aperiodic, self-stabilizing magnetic lattices. The "Bridge" framework addresses the fundamental limitations in conventional plasma physics—specifically the m=1 kink instability—by applying Golden Ratio (\phi \approx 1.618) rotational symmetry to Bi-Ionic Hourglass coil configurations. By inverting traditional toroidal geometries into an aperiodic hourglass shape and rotating successive windings by the Golden Ratio, the system generates aperiodic magnetic pressure. This effectively eliminates constructive interference peaks that lead to plasma instability. The protocol enables applications in continuous-thrust transit, energy-waste recycling (ionic shielding), and harmonic cellular stabilization. This publication provides the governing equations for induced dipole forces and aperiodic gradient stabilization, serving as a defensive disclosure for open-source advancement in high-stability plasma control and propulsion systems.
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Schramm, Daniel, "TECHNICAL DISCLOSURE: THE UNIFIED BI-IONIC BRIDGE", Technical Disclosure Commons, (April 21, 2026)
https://www.tdcommons.org/dpubs_series/9877