Unifying Floquet theory of longitudinal and dispersive readout

Abstract

We devise a Floquet theory of longitudinal and dispersive readout in circuit QED. By studying qubits coupled to cavity photons and driven at the resonance frequency of the cavity ω r, we establish a universal connection between the qubit AC Stark shift and the longitudinal and dispersive coupling to photons. We find that the longitudinal coupling g is controlled by the slope of the AC Stark shift as function of the driving strength A q, while the dispersive shift depends on its curvature. The two quantities become proportional to each other in the weak drive limit (A q→ 0). Our approach unifies the adiabatic limit (ω r→ 0) -- where g is generated by the static spectrum curvature (or quantum capacitance) -- with the diabatic one, where the static spectrum plays no role. We derive analytical results supported by exact numerical simulations. We apply them to superconducting and spin-hybrid cQED systems, showcasing the flexibility of faster-than-dispersive longitudinal readout.

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