How QMX works?
Turning Quantum Physics into Practical Intelligence
At the heart of QMX are nitrogen-vacancy centres inside syntentic diamond.
These atomic-scale defects respond to magnetic fileds in mesaruble ways when excited by light and electromagnetic signals.
By combining optical excitation, precision microwave control, and software defined processing, QMX can detect extremely small variations in magnetic fields.
This enables the platform to measure:
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Static magnetic anomalies,
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Oscillating electromagnetic fields
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Magnetic phase relationships
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Environmental magnetic signatures
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Induced conductive responses
The result is versatile sensing architecture capable of operating across multiple domains including defence, infrastructure, geology, autonomous systems, industrial inspection, and future medical sensing research.