Montenegro Gold Prospect

In 2018, we completed a DDT Stage One survey over a 90 km² area in northern Montenegro. The objective was to detect intrinsic radiation anomalies associated with subsurface gold-bearing formations and define priority zones for advanced investigation.

The DDT Stage One survey covered a defined prospect area outlined on the map. The highlighted yellow polygon represents the processed satellite image

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The DDT methodology is based on the detection of intrinsic radiation emitted by mineral-bearing formations. According to the conceptual model, each deposit produces a characteristic radiation cluster identifiable through proprietary satellite data processing.

The diagram below illustrates:

• Mineral body (A)
• Radiation cluster geometry (B)
• Satellite image capture (C)
• Data acquisition fram

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Advanced DDT processing evaluates the relationship between visualization speed and anomaly formation time. Higher visualization speed correlates with higher intrinsic radiation intensity.

Anomalies exceeding empirically established thresholds are considered strong candidates for Stage Two surveys.

Multiple intrinsic radiation anomalies consistent with Au-bearing formations were identi

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The most prospective anomaly clusters are outlined in blue polygons. These zones demonstrate elevated intrinsic radiation intensity and are recommended for Stage Two surveys.

Stage Two is required to determine:

• Deposit geometry
• Depth and thickness
• Precise drilling target locations

Additional anomaly visualization confirms the distribution of gold-related intrinsic radiation clusters with

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Additional anomaly visualization confirms the distribution of gold-related intrinsic radiation clusters within the prospect area. These clusters exhibit dynamic characteristics that warrant advanced subsurface modeling.