IONIC_FLUX

ACTIVE

Charge-carrier behavior in ionized field environments

Module Overview

IONIC_FLUX is the primary charge-monitoring subsystem of the Loc-Geist framework. It continuously measures the flux density of ionized particles — predominantly dust grains, aerosols, and plasma-entrained debris — within active electromagnetic field boundaries. Rather than treating atmospheric particles as passive objects, Loc-Geist treats them as live charge carriers whose behavior is determined by the ambient electrostatic gradient.

Parameters

Sampling Rate200 ms

Flux Threshold4.5 µC/m³

Escalation Delay8 s

Field Coverage12 km radius

Sensor Nodes5 active

Current StatusACTIVE

How It Works

Field Sampling

Sensors sweep for localized ionization density anomalies at 200ms intervals, flagging zones where charge concentration deviates more than 2σ from baseline.

Particle Classification

Each flagged particle cluster is classified by charge sign (positive, negative, bipolar), size distribution, and drift velocity relative to the ambient field vector.

Flux Mapping

Classified clusters are rendered onto a 3D flux map updated in near real-time, overlaid against known sighting event coordinates for correlation analysis.

Anomaly Threshold

Events where ionic flux exceeds 4.5 µC/m³ for more than 8 seconds are automatically escalated to the DISCLOSURE_UPLINK pipeline for human operator review.

Core Physics Expression

Φ_ion = ∫∫ J · dA where J = ρ_charge · v_drift

Ion flux Φ is the surface integral of current density J, composed of charge density ρ and drift velocity v. Non-neutral particles are never assumed to be at rest.

Module Navigation

DISCLOSURE_UPLINK

ELECTRON_DRIFT