From Adiabatic to Dispersive Readout of Quantum Circuits
Sunghun Park, C. Metzger, L. Tosi, M. F. Goffman, C. Urbina, H. Pothier, A. Levy Yeyati
Abstract
Spectral properties of a quantum circuit are efficiently read out by monitoring the resonance frequency shift it induces in a microwave resonator coupled to it. When the two systems are strongly detuned, theory attributes the shift to an effective resonator capacitance or inductance that depends on the quantum circuit state. At small detuning, the shift arises from the exchange of virtual photons, as described by the Jaynes-Cummings model. Here we present a theory bridging these two limits and illustrate, with several examples, its necessity for a general description of quantum circuits readout.
Topics & Concepts
PhysicsResonatorElectronic circuitAdiabatic processQuantumMicrowavePhotonQuantum mechanicsInductanceCapacitanceQuantum circuitQuantum opticsOptoelectronicsQuantum computerQuantum networkVoltageElectrodeQuantum Information and CryptographyQuantum and electron transport phenomenaQuantum Computing Algorithms and Architecture