Wave Theory
Resonance, oscillation, and the physics of coherent systems. Exploring how waves interact, amplify, and create the phenomena we observe across scales.
Articles
The Heartbeat at the Center
Cardiac coherence and the body's strongest field. How the heart's toroidal electromagnetic field shifts between chaos and order -- and why gratitude is the switch.
Earth's Heartbeat
Schumann resonances and the frequency of everything. How standing electromagnetic waves in the Earth-ionosphere cavity create a planetary hum at 7.83 Hz -- and why it matters for every system in this series.
Tesla's Earthquake Machine: When Resonance Becomes a Weapon
The true story of Tesla's mechanical oscillator, the physics of resonance, and what a pocket-sized device shaking a building tells us about the power of waves.
The Parametric Oscillator: The Engine Inside the Theory
What is a parametric oscillator, why does it matter for superconductivity, and how does it connect to the PART framework? A guide to the mechanism at the heart of wave coherence.
Phase, Coherence, and Why Waves Lock Together
The mechanism beneath everything. Phase-locking is the single phenomenon that unifies superconductors, brains, hearts, and planetary cavities. Here's how it works from first principles.
The Electron Is a Wave
Williamson, van der Mark, and the 1997 paper that proposed the electron is a photon confined to a toroidal loop by its own topology. Why matter might be standing light.
What Is a Standing Wave?
The one concept you need before everything else. Nodes, antinodes, resonance, Q factor -- the vocabulary primer for the entire Wave Coherence series.