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Advances in Portable Atom Interferometry-Based Gravity Sensing

Jamie Vovrosh, Andrei Dragomir, Ben Stray, Daniel Boddice

2023Sensors14 citationsDOIOpen Access PDF

Abstract

Gravity sensing is a valuable technique used for several applications, including fundamental physics, civil engineering, metrology, geology, and resource exploration. While classical gravimeters have proven useful, they face limitations, such as mechanical wear on the test masses, resulting in drift, and limited measurement speeds, hindering their use for long-term monitoring, as well as the need to average out microseismic vibrations, limiting their speed of data acquisition. Emerging sensors based on atom interferometry for gravity measurements could offer promising solutions to these limitations, and are currently advancing towards portable devices for real-world applications. This article provides a brief state-of-the-art review of portable atom interferometry-based quantum sensors and provides a perspective on routes towards improved sensors.

Topics & Concepts

GravimeterAtom interferometerInterferometryMetrologyQuantum sensorComputer scienceUltracold atomAerospace engineeringRemote sensingPhysicsAstronomical interferometerEngineeringQuantumQuantum technologyOpticsGeologyOpen quantum systemQuantum mechanicsCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics ResearchAdvanced Frequency and Time Standards
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