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Transitioning from Quantum Electrodynamics to Stochastic Electrodynamics: Unveiling the Real Nature of the Zero-Point Field Part 2: Engineering the Plenum – The Miller Framework
Building on Part 1’s exploration of the ZPF as a real, physical sea of stochastic waves and modes, this installment bridges to practical app
Douglas Miller
Jan 208 min read
Transitioning from Quantum Electrodynamics to Stochastic Electrodynamics: Unveiling the Real Nature of the Zero-Point Field
By understanding the plenum as a tangible, physical sea, we can awaken its potential for humanity's boldest horizons.
Douglas Miller
Jan 203 min read
Solving the Three-Body Problem of Fusion: The Miller Threshold and Vacuum Engineering
One cannot master Aneutronic fusion until you realize that the p-B^{11} reaction is a three-body problem, and the third body is the Zero
Douglas Miller
Jan 83 min read
Emergent Thermodynamics in Stochastic Electrodynamics: Implications of Variable Zero-Point Energy Density for Physics and Technology
Stochastic Electrodynamics (SED) presents a compelling paradigm where the laws of thermodynamics emerge as dynamic responses to zero-point energy (ZPE) density variations, modulated through interactions with the quantum vacuum. The implications are profound: from resolving quantum field theory's vacuum energy paradox to enabling emergent efficiencies in systems like the ZPF AntiGrav Thrust Array.
Douglas Miller
Aug 4, 20254 min read
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