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Tracking the vector acceleration with a hybrid quantum accelerometer triad

2022; American Association for the Advancement of Science; Volume: 8; Issue: 45 Linguagem: Inglês

10.1126/sciadv.add3854

2375-2548

Simon Templier, P. Cheiney, Quentin d’Armagnac de Castanet, Baptiste Gouraud, H. Porte, Fabien Napolitano, Philippe Bouyer, Baptiste Battelier, B. Barrett,

Advanced Frequency and Time Standards

Robust and accurate acceleration tracking remains a challenge in many fields. For geophysics and economic geology, precise gravity mapping requires onboard sensors combined with accurate positioning and navigation systems. Cold atom-based quantum inertial sensors can potentially provide these high-precision instruments. However, current scalar instruments require precise alignment with vector quantities. Here, we present the first hybrid three-axis accelerometer exploiting the quantum advantage to measure the full acceleration vector by combining three orthogonal atom interferometer measurements with a classical navigation-grade accelerometer triad. Its ultralow bias permits tracking the acceleration vector over long time scales, yielding a 50-fold improvement in stability (6 × 10-8g) over our classical accelerometers. We record the acceleration vector at a high data rate (1 kHz), with absolute magnitude accuracy below 10 μg, and pointing accuracy of 4 μrad. This paves the way toward future strapdown applications with quantum sensors and highlights their potential as future inertial navigation units.