Implementation and Applications of Two Qutrit Gates in Superconducting Transmon Qubits

ORAL

Abstract

With recent improvements in state-selective quantum control and the coherent lifetimes of superconducting circuits, it has become feasible to encode quantum information in the higher excited states of a transmon qubit. A three-level quantum system (qutrit) has an exponentially larger Hilbert space for a given number of elements and is the minimal system required to observe non-contextuality and the physics of scrambling. Here we describe the implementation of a gate between two transmon qutrits in a 2D planar architecture. The gate is constructed by incorporating the well-established cross-resonance interaction into a multi-level decoupling sequence. In combination with single qutrit control, this gate allows for the implementation of a maximally scrambling operation which is a key component in a recently proposed proof-of-principle experiment to simulate the decoding of Hawking radiation to reconstruct a quantum state.

*This work was funded by the Army Research Office and the Department of Energy.

Presenters

  • Machiel Blok

    • Univ of California – Berkeley
    • Univ of California - Berkeley
    • Physics, Univ of California - Berkeley

Authors

  • Machiel Blok

    • Univ of California – Berkeley
    • Univ of California - Berkeley
    • Physics, Univ of California - Berkeley

  • Vinay Ramasesh

    • Department of Physics, University of California Berkeley
    • Univ of California – Berkeley
    • Univ of California - Berkeley
    • Physics, Univ of California - Berkeley

  • James Colless

    • Department of Physics, University of California, Berkeley
    • Univ of California - Berkeley
    • Physics, Univ of California - Berkeley

  • Kevin O'Brien

    • Univ of California – Berkeley
    • Univ of California - Berkeley
    • University of California - Berkeley
    • Physics, Univ of California - Berkeley

  • Thomas Schuster

    • Univ of California - Berkeley
    • Physics, Univ of California - Berkeley

  • Norman Yao

    • Physics, Univ of California - Berkeley
    • Department of Physics, University of California
    • University of California, Berkeley
    • Univ of California - Berkeley
    • University of California Berkeley
    • Physics, University of California, Berkeley
    • Department of Physics, Univ of California - Berkeley

  • Irfan Siddiqi

    • Univ of California - Berkeley
    • Department of Physics, University of California Berkeley
    • Department of Physics, University of California, Berkeley
    • University of California Berkeley
    • Univ of California – Berkeley
    • Physics, Univ of California -- Berkeley
    • Physics, Univ of California - Berkeley
    • University of California - Berkeley