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$T^3$-interferometer for atoms

Published 8 Sep 2016 in quant-ph and physics.atom-ph | (1609.02337v1)

Abstract: The quantum mechanical propagator of a massive particle in a linear gravitational potential derived already in 1927 by Earle H. Kennard \cite{Kennard,Kennard2} contains a phase that scales with the third power of the time $T$ during which the particle experiences the corresponding force. Since in conventional atom interferometers the internal atomic states are all exposed to the same acceleration $a$, this $T3$-phase cancels out and the interferometer phase scales as $T2$. In contrast, by applying an external magnetic field we prepare two different accelerations $a_1$ and $a_2$ for two internal states of the atom, which translate themselves into two different cubic phases and the resulting interferometer phase scales as $T3$. We present the theoretical background for, and summarize our progress towards experimentally realizing such a novel atom interferometer.

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