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Quantum gravitational sensor for space debris

Meng-Zhi Wu, Marko Toroš, Sougato Bose, Anupam Mazumdar

2023Physical review. D/Physical review. D.28 citationsDOIOpen Access PDF

Abstract

Matter-wave interferometers have fundamental applications for gravity experiments such as testing the equivalence principle and the quantum nature of gravity. In addition, matter-wave interferometers can be used as quantum sensors to measure the local gravitational acceleration caused by external massive moving objects, thus lending itself for technological applications. In this paper, we will establish a three-dimensional model to describe the gravity gradient signal from an external moving object, and theoretically investigate the achievable sensitivities using the matter-wave interferometer based on the Stern-Gerlach setup. As an application we will consider the mesoscopic interference for metric and curvature and gravitational-wave detection scheme [R. J. Marshman et al., Mesoscopic interference for metric and curvature (MIMAC) & gravitational wave detection, New J. Phys. 22, 083012 (2020)] and quantify its sensitivity to gravity gradients using frequency-space analysis. We will consider objects near Earth-based experiments and space debris in proximity of satellites and estimate the minimum detectable mass of the object as a function of their distance, velocity, and orientation.

Topics & Concepts

PhysicsInterferometryGravitational waveMesoscopic physicsAstronomical interferometerMatter waveCurvatureClassical mechanicsGradiometerGravitationQuantum gravityQuantumQuantum mechanicsGeometryMagnetometerMagnetic fieldMathematicsPulsars and Gravitational Waves ResearchCold Atom Physics and Bose-Einstein CondensatesGeophysics and Sensor Technology
Quantum gravitational sensor for space debris | Litcius