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Mobile and remote inertial sensing with atom interferometers

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arxiv 1311.7033 v4 pith:ENPVTI6N submitted 2013-11-27 physics.atom-ph physics.geo-phphysics.space-ph

Mobile and remote inertial sensing with atom interferometers

classification physics.atom-ph physics.geo-phphysics.space-ph
keywords inertialatomatomscontrolequivalenceinterferometermeasurementsmobile
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The past three decades have shown dramatic progress in the ability to manipulate and coherently control the motion of atoms. This exquisite control offers the prospect of a new generation of inertial sensors with unprecedented sensitivity and accuracy, which will be important for both fundamental and applied science. In this article, we review some of our recent results regarding the application of atom interferometry to inertial measurements using compact, mobile sensors. This includes some of the first interferometer measurements with cold $^{39}$K atoms, which is a major step toward achieving a transportable, dual-species interferometer with rubidium and potassium for equivalence principle tests. We also discuss future applications of this technology, such as remote sensing of geophysical effects, gravitational wave detection, and precise tests of the weak equivalence principle in Space.

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