Floquet state spectroscopy of a semiconductor charge qubit with a microwave resonator

ORAL

Abstract

Applying a strong periodic drive to a qubit is a useful method to manipulate its state and gives rise to intricate physics, such as the ac Stark effect and Landau-Zener-Stückelberg interference [1], characterized by the emergence of Floquet states. Here, we measure a strongly driven GaAs double quantum dot charge qubit with a weakly coupled superconducting microwave resonator [2]. In contrast to earlier experiments [1, 3, 4], we probe the Floquet states by tracing the qubit - resonator resonance condition as a function of the drive amplitude and the detuning between the (2,1) and (1,2) charge configurations of the qubit. For large drive amplitudes, multiple resonances emerge corresponding to processes involving a single resonator photon and multiple drive field photons. Furthermore, we observe Landau-Zener-Stückelberg interference arising only for those resonances that involve at least a single photon absorbed from the drive.

[1] S.N. Shevchenko, S. Ashhab, and F. Nori, Phys. Rep. 492, 1 (2010)
[2] Manuscript in preparation
[3] F. Forster et al., Phys. Rev. Lett. 112, 116803 (2014)
[4] J. Stehlik et al., Phys. Rev. X 6, 041027 (2016)

Presenters

  • Jonne Koski

    • ETH - Zurich
    • ETH Zurich
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich

Authors

  • Jonne Koski

    • ETH - Zurich
    • ETH Zurich
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich

  • Andreas Landig

    • ETH - Zurich
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich

  • Andras Palyi

    • Department of Physics, Budapest University of Technology and Economics
    • Budapest University of Technology and Economics

  • Pasquale Scarlino

    • ETH - Zurich
    • Delft University of Technology
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich

  • Christian Reichl

    • ETH - Zurich
    • Solid State Physics Laboratory, ETH Zurich
    • ETH Zurich
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich
    • Laboratory for Solid State Physics, ETH Zürich
    • Laboratorium fur Festkorperphysik, , ETH-Zurich
    • Laboratorium für Festkörperphysik, ETH Zürich

  • Werner Wegscheider

    • ETH - Zurich
    • Solid State Physics Laboratory, ETH Zurich
    • ETH Zurich
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich
    • Laboratory for Solid State Physics, ETH Zürich
    • Laboratorium fur Festkrperphysik, ETH-Zurich
    • Laboratorium fur Festkorperphysik, , ETH-Zurich
    • ETH Zürich
    • Laboratorium für Festkörperphysik, ETH Zürich
    • Laboratorium fur Festkorperphysik, ETH-Zurich

  • Guido Burkard

    • University of Konstanz
    • Physics, University of Konstanz
    • Department of Physics, University of Konstanz
    • Univ Konstanz
    • Uni Konstanz
    • Physics, Univ. Konstanz
    • Physics, Univ Konstanz

  • Andreas Wallraff

    • ETH - Zurich
    • Physics, ETH Zurich
    • Department of Physics, ETH Zurich
    • Department of Physics, ETH Zürich
    • ETH Zurich

  • Thomas Ihn

    • Physics, ETH Zurich
    • ETH - Zurich
    • Physics, ETH - Zurich
    • Department of Physics, ETH Zurich

  • Klaus Ensslin

    • Physics, ETH Zurich
    • ETH - Zurich
    • Physics, ETH - Zurich
    • Department of Physics, ETH Zurich