1 · Satellite image acquisition
Multisensor satellite imaging captures the spectral response of the ground across far infrared, ultraviolet, microwave and visible bands. Coverage scales from tens of km² up to 10,000 km² per project — fully remote, with no field crews and no permits.
2 · Spectral transformation
The raw spectral data is transformed to isolate the atomic signature of the target element and reject the surrounding noise. This is where a broad image becomes an element-specific signal.
3 · Laboratory NMR amplification
Using patented materials and a gel filter tuned to the Element of Interest, the signal is amplified under controlled conditions — a controlled lithospheric replica with gamma irradiation. The output is presence, depth and concentration. The same physics works for hydrocarbons, water, CO₂ and minerals.
4 · Business intelligence and deliverables
- Anomaly contour maps and depth/thickness profiles.
- Schematic cross-sections and 3D geometry.
- Fluid and content discrimination; pressure and resource estimates.
- Recommended, prioritised drilling points.
Four stages, fully remote — from orbit to drilling coordinates.
What it identifies — and what it doesn't replace
The process identifies hydrocarbons, minerals and water at depth, with reservoir geometry and fluid discrimination. It does not replace seismic or confirmation drilling — it prioritises and reduces them, acting as the intelligent first step and the best seismic complement.
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