Quantum Vacuum Energy

Title: Quantum Vacuum Energy Stabilization via Prime-Based Friction and the DUAL Nominator Framework

Description:
This research presents a novel stabilization framework for quantum vacuum energy, leveraging prime number structures, frictional stabilization, and harmonic oscillations. Utilizing the DUAL Nominator mechanism, we establish a mathematically rigorous model incorporating a 51/49 frictional balance, a finite scaling threshold, and a 90-degree rotational transformation to regulate quantum oscillations. Our high-precision computational simulations demonstrate self-regulating energy stability within the vacuum field, suggesting profound connections between prime sequences, gravitational wave structures, and space-time geometry. This work opens new avenues in quantum field stabilization, energy extraction, and potential applications to propulsion technologies.