416 research outputs found
Selective interactions in trapped ions: state reconstruction and quantum logic
We propose the implementation of selective interactions of atom-motion
subspaces in trapped ions. These interactions yield resonant exchange of
population inside a selected subspace, leaving the others in a highly
dispersive regime. Selectivity allows us to generate motional Fock (and other
nonclassical) states with high purity out of a wide class of initial states,
and becomes an unconventional cooling mechanism when the ground state is
chosen. Individual population of number states can be distinctively measured,
as well as the motional Wigner function. Furthermore, a protocol for
implementing quantum logic through a suitable control of selective subspaces is
presented.Comment: 4 revtex4 pages and 2 eps figures. Submitted for publicatio
DC Electric Fields in Electrode-Free Glass Vapor Cell by Photoillumination
Rydberg-atom-enabled atomic vapor cell technologies show great potentials in
developing devices for quantum enhanced sensors. In this paper, we demonstrate
laser induced DC electric fields in an all-glass vapor cell without bulk or
thin film electrodes. The spatial field distribution is mapped by Rydberg
electromagnetically induced transparency spectroscopy. We explain the measured
with a boundary-value electrostatic model. This work may inspire new ideas for
DC electric field control in designing miniaturized atomic vapor cell devices.
Limitations and other charge effects are also discussed
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