Superconductivity
The science of zero resistance — from history to cutting edge. Exploring how acoustic resonance, Cooper pair formation, and parametric amplification might rewrite the rules of superconductivity.
Research Papers
The Parametric Oscillator
How resonant pumping could bridge the pressure gap — and what that means for free energy. Proposes parametric oscillation as the mechanism for achieving superconducting conditions.
The Giza-Dahshur Superconducting Grid
A hypothesis for the pyramids as an integrated power generation, chemical production, and superconducting transmission system.
The Wave Coherence Model: Topological Untwisting
A geometric mechanism for Cooper pair formation based on the toroidal photon model of the electron. Proposes that Cooper pairing is fundamentally a topological untwisting process.
Articles
Magnetic Flux: The Invisible River Running Through Everything
A plain-language guide to one of physics' most important (and most misunderstood) concepts — from Gauss to Tesla to superconducting flux quanta.
Wave Coherence Demystified: The PART Framework
A plain-language guide to the Parametric Acoustic Resonance Theory. How superconductivity might actually be an acoustic phenomenon — and why that changes everything.
The Strange History of Zero Resistance
A 113-year journey from frozen mercury to room-temperature dreams. How we learned that electricity can flow forever — and why we still can't do it at room temperature (yet).