Proposal for a Logical Qubit Encoded into a Stabilized Manifold in Two Bosonic Modes.

ORAL

Abstract

We introduce a driven-dissipative two-mode bosonic system whose reservoir causes simultaneous loss of two photons in each mode and whose steady states are superpositions of Barut-Girardello pair-coherent states. Quantum information encoded in a manifold spanned by these states is exponentially immune to phase drifts (cavity dephasing) in both modes. It is also possible to protect the encoded information from photon loss in either mode by continuously monitoring an error syndrome given by the photon number difference of the two modes. Furthermore, this monitoring can be done with current circuit QED technology without turning off the dissipative stabilizing process. In this talk, we will briefly introduce the general concept of this approach to quantum error correction as well as the specific encoding used. An overview of a potential implementation for this system in the framework of circuit QED will also be presented.

*Work supported by: ARL, ARO, NSF, ONR, AFOSR, SLOAN, PACKARD

Presenters

  • Alexander Grimm

    • PHELIQS, CEA Grenoble
    • Applied Physics, Yale University
    • Department of Applied Physics, Yale Univ
    • Yale Univ

Authors

  • Victor Albert

    • California Institute of Technology
    • Applied Physics, Yale University
    • Caltech

  • Shantanu Mundhada

    • Applied Physics, Yale University
    • Department of Applied Physics, Yale Univ

  • Alexander Grimm

    • PHELIQS, CEA Grenoble
    • Applied Physics, Yale University
    • Department of Applied Physics, Yale Univ
    • Yale Univ

  • Steven Touzard

    • Applied Physics, Yale University
    • Department of Applied Physics, Yale Univ
    • Yale Univ

  • Michel Devoret

    • Yale University
    • Applied Physics, Yale University
    • Department of Applied Physics, Yale University
    • Applied Physics, Yale Univ
    • Physics and Applied Physics, Yale University
    • Yale Univ
    • Dept. of Applied Physics, Yale University
    • Department of Applied Physics, Yale Univ

  • Liang Jiang

    • Applied Physics, Yale Univ
    • Yale University
    • Department of Physics and Applied Physics, Yale University
    • Yale Univ
    • Applied Physics, Yale University
    • Department of Applied Physics, Yale University
    • Dept. of Applied Physics, Yale University
    • Yale Quantum Institute, Yale University