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Paper detail

Tunneling Gravimetry

We examine the prospects of utilizing matter-wave Fabry-Pérot interferometers for enhanced inertial sensing applications. Our study explores such tunneling-based sensors for the measurement of accelerations in two configurations: (a) a transmission setup, where the initial wave packet is transmitted through the cavity and (b) an out-tunneling scheme with intra-cavity generated initial states lacking a classical counterpart. We perform numerical simulations of the complete dynamics of the quantum wave packet, investigate the tunneling through a matter-wave cavity formed by realistic optical potentials and determine the impact of interactions between atoms. As a consequence we estimate the prospective sensitivities to inertial forces for both proposed configurations and show their feasibility for serving as inertial sensors.

preprint2022arXivOpen access
Patrik SchachAlexander FriedrichJason R. WilliamsWolfgang P. SchleichEnno Giese
physics.atom-phquant-ph
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Patrik SchachAlexander FriedrichJason R. WilliamsWolfgang P. SchleichEnno Giese

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