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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
Quantum Tunneling, Entanglement, and Warp Drives: Reimagining Reality Through the Lens of Stochastic Electrodynamics
Welcome back to the Zero-Point Field Technologies blog, where we dive deep into the humming symphony of the vacuum—the infinite sea of energ
Douglas Miller
Dec 11, 20256 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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