Driving a Dark State Qubit in 3D Waveguide QED
ORAL
Abstract
The collective behavior of coupled qubits in a waveguide leads to sub-radiant and superradiant states. This effect was extensively studied theoretically and experimentally over the last decade. The appearing dark states can be used to generate an effective two level system that has longer coherence times than a single qubit in the same physical configuration. We engineered a system that creates subradiant and superradiant states by using a direct dipole-dipole, as well as a waveguide-mediated interaction. We show experimentally that this two-qubit dark-state can be used as a qubit state even though it is embedded in an open system. Furthermore, we use the bright state to read out the qubit encoded in the dark state.
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Presenters
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Maximilian Zanner
Institut für Quantenoptik und Quanteninformation, Univ of Innsbruck
Authors
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Maximilian Zanner
Institut für Quantenoptik und Quanteninformation, Univ of Innsbruck
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Christian M. F. Schneider
University of Innsbruck, Univ of Innsbruck, Experimental Physics, University of Innsbruck
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Mathieu L. Juan
IQOQI, Austrian Academy of Sciences, Institute for Experimental Physics, University of Innsbruck
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Oscar Gargiulo
IQOQI, Austrian Academy of Sciences
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Stefan Oleschko
Univ of Innsbruck
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Aleksei Sharafiev
IQOQI, Austrian Academy of Sciences
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Gerhard Kirchmair
University of Innsbruck, Univ of Innsbruck, Institute for Experimental Physics, University of Innsbruck, Experimental Physics, University of Innsbruck