The Memion Framework proposes that space is a torsional elastic lattice of memory-protecting entities. Particles are wave patterns. Forces are gradients. Gravity is a sink. All of it mechanical, all the way down.
Series introduction. Why mechanical consistency matters more than mathematical elegance.
What happens when memion death rate exceeds replacement. The fluid zone, death noise, and possible re-crystallization.
Next speculative paper — topic emerging from ongoing work.
Size relationships between memions, particles, atoms. What sets the lattice spacing.
What space actually is. Whether dimensions are emergent or fundamental.
Why the vacuum must be active. Death noise spectrum, virtual particles, multiverse cross-talk, and the strong force connection.
Three mechanisms, two regimes. From cosmic-scale 1/r² to nuclear-scale confinement — all one continuous mechanism.
Field lines as torsional domain walls. Charge as topological invariant. The XOR interaction rule.
The tumbling twist model. Planck's constant as rotational inertia. The scout.
What time is in the framework. Dilation as a lattice wave-speed effect.
3D Lissajous path geometry. Wave train with N=2. Storm warning field generation.
Quarks as solitons. Waveguide cutoff between quarks produces confinement. Asymptotic freedom as a geometric consequence.
Actively driven steady state. Casimir effect. Small-scale energy rectification.
A personal story — how the memion concept evolved over 37 years. From a question about inertia to a mechanical model of space.
Orthogonal addressing schemes. Quantum noise as cross-channel interference. The coaxial cable analogy.
Counter-rotating field lines as gear-meshing. The double-helix winding. Spin pairing explained mechanically.