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Hybrid circuit cavity quantum electrodynamics with a micromechanical resonator

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arxiv 1207.1637 v2 pith:O4NP7GLL submitted 2012-07-06 cond-mat.mes-hall cond-mat.supr-conquant-ph

Hybrid circuit cavity quantum electrodynamics with a micromechanical resonator

classification cond-mat.mes-hall cond-mat.supr-conquant-ph
keywords quantumcavitystatescouplingelectrodynamicshybridphononphonons
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Hybrid quantum systems with inherently distinct degrees of freedom play a key role in many physical phenomena. Famous examples include cavity quantum electrodynamics, trapped ions, or electrons and phonons in the solid state. Here, a strong coupling makes the constituents loose their individual character and form dressed states. Apart from fundamental significance, hybrid systems can be exploited for practical purpose, noteworthily in the emerging field of quantum information control. A promising direction is provided by the combination between long-lived atomic states and the accessible electrical degrees of freedom in superconducting cavities and qubits. Here we integrate circuit cavity quantum electrodynamics with phonons. Besides coupling to a microwave cavity, our superconducting transmon qubit interacts with a phonon mode in a micromechanical resonator, thus representing an atom coupled to two different cavities. We measure the phonon Stark shift, as well as the splitting of the qubit spectral line into motional sidebands, which feature transitions between the dressed electromechanical states. In the time domain, we observe coherent conversion of qubit excitation to phonons as sideband Rabi oscillations. This is a model system having potential for a quantum interface, which may allow for storage of quantum information in long-lived phonon states, coupling to optical photons, or for investigations of strongly coupled quantum systems near the classical limit.

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