Abstract
Atom interferometry provides the opportunity of high-precision measurements of rotation and acceleration [1]. Therefore atoms are the ultimate quantum sensors. In the configuration of an atom interferometer they provide the opportunity of high-precision rotation and acceleration sensing. Potential applications range from the further understanding of fundamental physics to inertial navigation and geological exploration. In the QUANTUS free-fall experiments atom interferometery is the central method as well [2].
© 2017 IEEE
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