This whitepaper presents an innovative approach to antimatter storage and accumulationby integrating conventional trapping techniques with principles from the Unified HarmonicField Framework (UHFF). The core concept involves phase-locked toroidal resonance trapsthat leverage harmonic standing-wave nodes, golden-ratio frequency spacing, and quaternionicphase tuning to achieve superior phase coherence, suppress decoherence mechanisms suchas thermal fluctuations and surface annihilation, and create high-quality factor (high-Q)containment volumes for positrons and antiprotons. Drawing on UHFF’s emphasis on toroidalenergy storage, phase reservoirs, and constructive alignment through rational frequency ratios,this framework aims to extend storage lifetimes and improve capture efficiencies beyondtraditional Penning or Paul traps. A theoretical sketch, experimental roadmap, diagnostics,and safety considerations are provided, offering a phased pathway from simulation to scaledimplementation. This work hypothesizes significant advantages in antimatter handling forapplications in fundamental physics, propulsion, and energy research, while addressing keychallenges and regulatory requirements.
Koby Davis (Sun,) studied this question.