Who Let the Diamonds Out?

Abstract

Nitrogen-Vacancy (NV) center magnetometry is a highly promising quantum sensing technology, with early prototypes demonstrating impressive sensitivity in compact sensing heads. Yet, most existing implementations remain tied to laboratory setups, lacking the portability and environmental robustness needed to unlock their full potential in real-world applications. In this work, we introduce a fully portable, hand-held NV-based magnetometer that delivers a vector sensitivity of approximately 400 pT/sqrt(Hz), heading errors below 5 nT in Earth's field, and a wide signal bandwidth that supports on-field recalibration and operation on moving platforms. We further demonstrate the system's technological maturity through environmental qualification such as thermal, vibration, radiation and other operational stresses related to deployment in low Earth orbit, and through successful deployments in demanding scenarios, including northern Canadian weather conditions, drone-mounted surveys and high-altitude balloon flights. Together, these achievements establish this NV-based magnetometer as a robust, versatile tool ready to bring quantum sensing performance to a broad range of field and autonomous applications.