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Paper detail

Dynamic quantum Kerr effect in circuit quantum electrodynamics

A superconducting qubit coupled to a microwave resonator provides a controllable system that enables fundamental studies of light-matter interactions. In the dispersive regime, photons in the resonator exhibit induced frequency and phase shifts which are revealed in the resonator transmission spectrum measured with fixed qubit-resonator detuning. In this static detuning scheme, the phase shift is measured in the far-detuned, linear dispersion regime to avoid measurement-induced demolition of the qubit quantum state. Here we explore the qubit-resonator dispersive interaction over a much broader range of detunings, by using a dynamic procedure where the qubit transition is driven adiabatically. We use resonator Wigner tomography to monitor the interaction, revealing exotic non-linear effects on different photon states, e.g., Fock states, coherent states, and Schrodinger cat states, thereby demonstrating a quantum Kerr effect in the dynamic framework.

preprint2011arXivOpen access
Yi YinH. WangM. MariantoniRadoslaw C. BialczakR. BarendsY. ChenM. LenanderErik LuceroM. NeeleyA. D. O'ConnellD. SankM. WeidesJ. WennerT. YamamotoJ. ZhaoA. N. ClelandJohn M. Martinis
cond-mat.mes-hallcond-mat.supr-con
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Yi YinH. WangM. MariantoniRadoslaw C. BialczakR. BarendsY. ChenM. LenanderErik LuceroM. NeeleyA. D. O'ConnellD. SankM. WeidesJ. WennerT. YamamotoJ. ZhaoA. N. ClelandJohn M. Martinis

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