Peter Leek

Cavity QED with separate photon storage and qubit readout modes

ArXiv 0911.4951 (2009)

Authors:

PJ Leek, M Baur, JM Fink, R Bianchetti, L Steffen, S Filipp, A Wallraff

Abstract:

We present the realization of a cavity quantum electrodynamics setup in which photons of strongly different lifetimes are engineered in different harmonic modes of the same cavity. We achieve this in a superconducting transmission line resonator with superconducting qubits coupled to the different modes. One cavity mode is strongly coupled to a detection line for qubit state readout, while a second long lifetime mode is used for photon storage and coherent quantum operations. We demonstrate sideband based measurement of photon coherence, generation of n photon Fock states and the scaling of the sideband Rabi frequency with the square root of n using a scheme that may be extended to realize sideband based two-qubit logic gates.

Thermal Excitation of Multi-Photon Dressed States in Circuit Quantum Electrodynamics

(2009)

Authors:

JM Fink, M Baur, R Bianchetti, S Filipp, M Göppl, PJ Leek, L Steffen, A Blais, A Wallraff

Thermal Excitation of Multi-Photon Dressed States in Circuit Quantum Electrodynamics

ArXiv 0911.3797 (2009)

Authors:

JM Fink, M Baur, R Bianchetti, S Filipp, M Göppl, PJ Leek, L Steffen, A Blais, A Wallraff

Abstract:

The exceptionally strong coupling realizable between superconducting qubits and photons stored in an on-chip microwave resonator allows for the detailed study of matter-light interactions in the realm of circuit quantum electrodynamics (QED). Here we investigate the resonant interaction between a single transmon-type multilevel artificial atom and weak thermal and coherent fields. We explore up to three photon dressed states of the coupled system in a linear response heterodyne transmission measurement. The results are in good quantitative agreement with a generalized Jaynes-Cummings model. Our data indicates that the role of thermal fields in resonant cavity QED can be studied in detail using superconducting circuits.

Dynamics of dispersive single qubit read-out in circuit quantum electrodynamics

(2009)

Authors:

R Bianchetti, S Filipp, M Baur, JM Fink, M Göppl, PJ Leek, L Steffen, A Blais, A Wallraff

Dynamics of dispersive single qubit read-out in circuit quantum electrodynamics

ArXiv 0907.2549 (2009)

Authors:

R Bianchetti, S Filipp, M Baur, JM Fink, M Göppl, PJ Leek, L Steffen, A Blais, A Wallraff

Abstract:

The quantum state of a superconducting qubit nonresonantly coupled to a transmission line resonator can be determined by measuring the quadrature amplitudes of an electromagnetic field transmitted through the resonator. We present experiments in which we analyze in detail the dynamics of the transmitted field as a function of the measurement frequency for both weak continuous and pulsed measurements. We find excellent agreement between our data and calculations based on a set of Bloch-type differential equations for the cavity field derived from the dispersive Jaynes-Cummings Hamiltonian including dissipation. We show that the measured system response can be used to construct a measurement operator from which the qubit population can be inferred accurately. Such a measurement operator can be used in tomographic methods to reconstruct single and multiqubit states in ensemble-averaged measurements.