Experimental progress toward single phonon creation in a mechanical resonator

ORAL

Abstract

Coupling a high frequency ($\sim $6 GHz) mechanical resonator to a Josephson phase qubit may enable the creation and manipulation of single phonons. Previously, we have shown the creation of arbitrary photon states in a superconducting coplanar waveguide (CPW) resonator coupled to a phase qubit (Max Hofheinz et al., Nature 454, 310-314, 2008). That experiment illustrated the capability of the phase qubit to controllably create and measure quantum states in a capacitively coupled resonator. By replacing the CPW resonator with a film bulk acoustic resonator (FBAR) we can potentially transfer the quantum state of the phase qubit to a vibrational mode of the FBAR. This talk will focus on our experimental progress to date in realizing this aim.

Authors

  • Aaron O'Connell

    • University of California, Santa Barbara, Physics

  • M. Ansmann

    • University of California, Santa Barbara, Physics

  • Radoslaw Bialczak

    • University of California, Santa Barbara, Physics
    • U.C. Santa Barbara

  • Max Hofheinz

    • University of California, Santa Barbara
    • University of California, Santa Barbara, Physics
    • Department of Physics, University of California, Santa Barbara

  • E. Lucero

    • University of California, Santa Barbara, Physics

  • Matthew Neeley

    • University of California, Santa Barbara, Physics
    • UC Santa Barbara

  • D. Sank

    • University of California, Santa Barbara, Physics

  • Haohua Wang

    • University of California, Santa Barbara, Physics
    • Department of Physics, University of California, Santa Barbara

  • J. Wenner

    • University of California, Santa Barbara, Physics

  • John Martinis

    • University of California, Santa Barbara, Physics
    • U. C. Santa Barbara
    • Department of Physics, University of California, Santa Barbara
    • University of California, Santa Barbra

  • Andrew Cleland

    • University of California, Santa Barbara, Physics
    • Department of Physics, University of California, Santa Barbara