768 research outputs found
Dual-path state reconstruction scheme for propagating quantum microwaves and detector noise tomography
Quantum state reconstruction involves measurement devices that are usually
described by idealized models, but not known in full detail in experiments. For
weak propagating microwaves, the detection process requires linear amplifiers
which obscure the signal with random noise. Here, we introduce a theory which
nevertheless allows one to use these devices for measuring all quadrature
moments of propagating quantum microwaves based on cross-correlations from a
dual-path amplification setup. Simultaneously, the detector noise properties
are determined, allowing for tomography. We demonstrate the feasibility of our
novel concept by proof-of-principle experiments with classical mixtures of weak
coherent microwaves.Comment: 11 pages, 3 figure
Tunable and Switchable Coupling Between Two Superconducting Resonators
We realize a device allowing for tunable and switchable coupling between two
superconducting resonators mediated by an artificial atom. For the latter, we
utilize a persistent current flux qubit. We characterize the tunable and
switchable coupling in frequency and time domain and find that the coupling
between the relevant modes can be varied in a controlled way. Specifically, the
coupling can be tuned by adjusting the flux through the qubit loop or by
saturating the qubit. Our time domain measurements allow us to find parameter
regimes for optimal switch performance with respect to qubit drive power and
the dynamic range of the resonator input power
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