Transmission spectroscopy of a single atom in the presence of tensor light shifts

We investigate the interplay between Zeeman and light shifts in the transmission spectrum of an optically trapped, spin-polarized Rubidium atom. The spectral shape of the transmission changes from multiple, broad resonances to a single, narrow Lorentzian with a high resonant extinction value when we...

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Published in:New journal of physics 2019-02, Vol.21 (2), p.23012
Main Authors: Steiner, Matthias, Chin, Yue-Sum, Kurtsiefer, Christian
Format: Article
Language:English
Subjects:
Dipoles
Field strength
neutral atom qubit
Physics
Quantum phenomena
Rubidium
single atom dipole trap
tensor light shift
Tensors
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description We investigate the interplay between Zeeman and light shifts in the transmission spectrum of an optically trapped, spin-polarized Rubidium atom. The spectral shape of the transmission changes from multiple, broad resonances to a single, narrow Lorentzian with a high resonant extinction value when we increase the magnetic field strength and lower the depth of the dipole trap. We present an experimental configuration well-suited for quantum information applications that enables not only efficient light-atom coupling, but also a long coherence time between ground state hyperfine levels.
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subjects Dipoles
Field strength
neutral atom qubit
Physics
Quantum phenomena
Rubidium
single atom dipole trap
tensor light shift
Tensors
title Transmission spectroscopy of a single atom in the presence of tensor light shifts
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