Our carefully chosen quantum platforms form the foundation of our technology, designed to explore and exploit the quantum properties of matter for practical applications.
Our vapor cell technology leverages quantum coherence to create sensors that can detect incredibly small variations in magnetic, electric, and gravitational fields.
By cooling atoms to near absolute zero, we can achieve unprecedented control over quantum states, enabling ultra-precise measurements for navigation, timing, and sensing.
We self-assemble modern compact laser systems to exploit coherence and entanglement phenomena, thus enhancing measurement sensitivity and accuracy.
Our range of quantum devices addresses critical challenges in precision measurement, offering next-generation solutions that redefine the limits of accuracy and reliability. These devices are purpose built and engineered for high-performance applications, offering exceptional precision for defense, aerospace, healthcare, and research industries.
Quantum Gravimeters
Designed for geophysical exploration and environmental monitoring, our gravimeters measure minute variations in gravitational fields with unprecedented accuracy.
Quantum IMUs
(Inertial Measurement Units)
For precise GPS-independent navigation, our quantum IMUs provide unparalleled stability and accuracy, minimizing drift and ensuring long-term reliability.
Quantum Magnetometers
Our magnetometers utilize quantum principles to achieve extreme sensitivity in detecting magnetic fields, used in high-tech industries and laboratories, exploration, geoscience, and medical applications.
Quantum Imaging Devices
Quantum-enhanced systems utilize non-classical light sources to achieve higher resolution and contrast. Applications range from healthcare to astronomy and remote sensing where high-fidelity observations are classically impossible due to low-light and/or high-noise environments.
