We use the Earth's crustal magnetism
for navigation
We use the Earth's crustal magnetism for navigation
We use the Earth's crustal magnetism for navigation
We use the Earth's crustal magnetism for navigation
The Earth's core generates a powerful global magnetic field, but it is the crust that carries a unique, location-specific signature.
The Earth's core generates a powerful global magnetic field, but it is the crust that carries a unique, location-specific signature.
The Earth's core generates a powerful global magnetic field, but it is the crust that carries a unique, location-specific signature.
This magnetic fingerprint acts as nature’s own GPS, and our system is designed to isolate and interpret it anywhere on the planet, passively and with precision.
This magnetic fingerprint acts as nature’s own GPS, and our system is designed to isolate and interpret it anywhere on the planet, passively and with precision.
This magnetic fingerprint acts as nature’s own GPS, and our system is designed to isolate and interpret it anywhere on the planet, passively and with precision.
By sensing the anomalies in the Earth's crustal magnetic fingerprint, our technology ensures positioning data in every type of environment, be it underwater, underground or indoors.
By sensing the anomalies in the Earth's crustal magnetic fingerprint, our technology ensures positioning data in every type of environment, be it underwater, underground or indoors.
By sensing the anomalies in the Earth's crustal magnetic fingerprint, our technology ensures positioning data in every type of environment, be it underwater, underground or indoors.
Introducing Dirac NVD-4 sensor
Introducing Dirac NVD-4 sensor
Introducing Dirac NVD-4 sensor
A plug‑and‑play quantum positioning sensor that turns Earth’s crustal magnetic anomalies into a passive reference frame delivering position information across altitudes, from submarines to satellites.
A plug‑and‑play quantum positioning sensor that turns Earth’s crustal magnetic anomalies into a passive reference frame delivering position information across altitudes, from submarines to satellites.
A plug‑and‑play quantum positioning sensor that turns Earth’s crustal magnetic anomalies into a passive reference frame delivering position information across altitudes, from submarines to satellites.
Miniature Mass, Monumental Accuracy.
Miniature Mass,
Monumental Accuracy.
At its core sits a diamond NV‑center magnetometer which measures vector fields with sub‑picotesla/√Hz sensitivity.
At its core sits a diamond NV‑center magnetometer which measures vector fields with sub‑picotesla/√Hz sensitivity.
At its core sits a diamond NV‑center magnetometer which measures vector fields with sub‑picotesla/√Hz sensitivity.
Communicating via RS‑422 and LV‑CMOS interfaces (NMEA, SPI, CANbus) for plug‑and‑play integration into aircraft racks, naval consoles or CubeSat payloads.
Communicating via RS‑422 and LV‑CMOS interfaces (NMEA, SPI, CANbus) for plug‑and‑play integration into aircraft racks, naval consoles or CubeSat payloads.
Communicating via RS‑422 and LV‑CMOS interfaces (NMEA, SPI, CANbus) for plug‑and‑play integration into aircraft racks, naval consoles or CubeSat payloads.
© 2025 Dirac Labs. All rights reserved.
© 2025 Dirac Labs. All rights reserved.
© 2025 Dirac Labs. All rights reserved.
© 2025 Dirac Labs. All rights reserved.