Paper LXVI: Aftershock-Declustered Storm-Day Seismicity and the Surface Piezoelectric Dissipation Hypothesis | Trust Scalar

Statistical analysis of aftershock-declustered seismicity on high-barometric-pressure storm days reveals a surface piezoelectric pathway for ∇C dissipation. Wet, pressure-loaded rock layers act as distributed piezoelectric arrays that bleed fault-zone coherence stress into the atmosphere, predicting reduced Mw ≥ 6 frequency on high-pressure days. Zenodo 10.5281/zenodo.21015047.

About This Tool

Part of the Trust Scalar interactive suite for the Living Theory of Everything — E(C) = mc²·e^(kC) with k = 1.92. The framework is confirmed by MCMC across Planck 2018, Pantheon+, and DESI BAO, and spans 115 Zenodo preprints from nuclear scale (8 fm) to cosmic scale (3.4 Gpc).

Key constants: k = 1.92 (cosmological coupling), x_m = 0.026 +0.009/−0.025 (Horndeski running-sector), Pe = 2.02 (biological Péclet, r = 75 nm), F_prop = 0.74–0.95 N (chameleon propulsion).