ELECTRON_DRIFT
STABLEElectron mobility differentials and negative charge accumulation
Module Overview
ELECTRON_DRIFT tracks the directional motion of free electrons within anomalous field zones. Because electrons are approximately 1,836 times lighter than protons, their drift velocity under equivalent field strength is orders of magnitude higher. This asymmetry is a foundational Loc-Geist principle: electron mobility cannot be treated as equivalent to ion mobility in any accurate anomaly model. ELECTRON_DRIFT quantifies this imbalance and correlates it with reported UAP electromagnetic signatures.
Parameters
How It Works
Mobility Differential
The module computes μ_e / μ_i ratios across all active sensor zones. Ratios exceeding 1,200 flag a high-mobility electron environment consistent with observed anomaly profiles.
Charge Accumulation Mapping
Negative charge accumulation zones are plotted as gradient maps. Objects moving through these zones experience measurable Coulomb forces logged for trajectory correlation.
EM Profile Matching
Electron drift signatures are cross-referenced against the sighting database EM profiles. Matching events are tagged for multi-module synthesis review.
Temporal Tracking
Drift direction and magnitude are recorded over time to identify orbital or oscillatory patterns inconsistent with natural atmospheric electron behavior.
Core Physics Expression
Electron drift mobility μ_e vastly exceeds ion drift μ_i due to the mass ratio m_i/m_e ≈ 1,836. This asymmetry drives net negative charging in any partially ionized environment.
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