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QMX is opening a funding round to accelerate commercial deployment of its quantum magnetometer platform across defence, geophysical, infrastructure, and medical diagnostics markets. The round will support the buildout of the company's North American team, its first pilot programmes in Canada and the United States, and continued platform development in the UK. The company is seeking deep-tech investors in both Europe and North America and invites introductions through Turgut A

A magnetometer measures magnetic fields. Conventional magnetometers — the kind used in smartphones and some industrial sensors — are useful, but they have limits. They struggle with noise, require calibration, and miss the faint signals that carry the most valuable information. Most people have never heard of a quantum magnetometer. That's about to change. A quantum magnetometer operates on an entirely different principle. By exploiting the behaviour of atoms at the quantum l

GPS is remarkable — but it has a vulnerability. It depends on satellite signals that can be jammed, spoofed, or simply unavailable underground, underwater, or in contested environments. For autonomous vehicles, defence platforms, and critical infrastructure operators, GPS denial is not a hypothetical risk. It is a planning assumption. The question is: what replaces it? One answer lies in Earth's own magnetic field. Every location on the planet has a unique magnetic signature

Every bridge, pipeline, and power cable is telling a story. Most of the time, no one is listening. Metal structures under stress generate subtle changes in their magnetic signature. Corrosion, fatigue, and developing faults all leave detectable traces — long before they become visible, audible, or catastrophic. The challenge is not that the signals don't exist. The challenge is that conventional sensors aren't sensitive enough to read them. Quantum magnetic sensing changes th