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arxiv: cond-mat/0703425 · v1 · pith:5G55QYIY · submitted 2007-03-15 · cond-mat.mes-hall · cond-mat.supr-con

Entanglement creation in circuit QED via Landau-Zener sweeps

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classification cond-mat.mes-hall cond-mat.supr-con
keywords qubitlandau-zenercreationentanglementcircuitcoupledoscillatorprobability
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A qubit may undergo Landau-Zener transitions due to its coupling to one or several quantum harmonic oscillators. We show that for a qubit coupled to one oscillator, Landau-Zener transitions can be used for single-photon generation and for the controllable creation of qubit-oscillator entanglement, with state-of-the-art circuit QED as a promising realization. Moreover, for a qubit coupled to two cavities, we show that Landau-Zener sweeps of the qubit are well suited for the robust creation of entangled cavity states, in particular symmetric Bell states, with the qubit acting as the entanglement mediator. At the heart of our proposals lies the calculation of the exact Landau-Zener transition probability for the qubit, by summing all orders of the corresponding series in time-dependent perturbation theory. This transition probability emerges to be independent of the oscillator frequencies, both inside and outside the regime where a rotating-wave approximation is valid.

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