The void framework applied to Spore Capture Void.
The pattern is in the substrate. Once you see it, you see it everywhere.
Massospora cicadina replaces cicada abdomens with fungal mass while hijacking mating drive to maximize spore dispersal. The infected cicada continues mating attempts despite absence of reproductive organs — engagement coupling at maximum with zero possible reward. Psilocybin and
The void framework gives this a number. It gives every system a number. The number predicts what happens next.
The void framework applied to Spore Capture Void.
Academic title: The Spore Capture — Massospora Cicadina and Engagement-Drive Hijacking as Void Mechanism
Move the sliders. Watch the system change state. Pe > 1 means drift wins.
The correlation coefficient. The sample size. The p-value. The math doesn't care about the domain.
Paste any text — AI output, ad copy, a policy document. The scorer runs the same algorithm the framework uses.
Three variables. One ratio. Predicts drift across every domain where the conditions co-occur.
Pe = (O × R) / α
Where O is opacity (how hidden the mechanism is), R is reactivity (how strongly the system responds to you), and α is your independence (how free you are to disengage).
When Pe < 1: diffusion dominates. You can navigate freely. The system is coherent.
When Pe > 1: drift dominates. The system pulls you in a direction. Your agency is reduced.
When Pe >> V* (≈ 3): irreversible cascade. D1 → D2 → D3. The system has captured you.
The framework identifies this pattern in every domain where O, R, and α co-occur. It specifies 26 falsification conditions. 0 of 26 have fired.
Full derivation: 10.5281/zenodo.18830127
Part of the Void Framework — 145 papers, 0/26 kill conditions fired, mean ρ = 0.958.