Demonstrating quantum speed-up in a superconducting two-qubit processor

ORAL

Abstract

We operate a superconducting quantum processor consisting of two tunable transmon qubits coupled by a swapping interaction, and equipped with non destructive single-shot readout of the two qubits [1]. With this processor, we run the Grover search algorithm among four objects and find that the correct answer is retrieved after a single run with a success probability between 0.52 and 0.67, significantly larger than the 0.25 achieved with a classical algorithm. This constitutes a proof-of-concept for the quantum speed-up of electrical quantum processors [2].\\[4pt] [1] arXiv:1109.6735v1 \\[0pt] [2] arXiv:1110.5170v1

*We gratefully acknowledge financial support from the European research contracts MIDAS and SOLID, from ANR Masquelspec and C'Nano and from the German Ministry of Education and Research.

Authors

  • Andreas Dewes

    • CEA Saclay
    • CEA-Saclay, France
    • CEA-Saclay

  • Romain Lauro

    • CEA Saclay
    • CEA-Saclay, France

  • Florian Ong

    • CEA Saclay

  • Vivien Schmitt

    • CEA Saclay
    • CEA-Saclay, France

  • Daniel Esteve

    • CEA Saclay
    • CEA-Saclay, France
    • CEA-Saclay

  • Patrice Bertet

    • CEA Saclay
    • CEA-Saclay, France
    • CEA-Saclay

  • Denis Vion

    • CEA Saclay
    • CEA-Saclay, France
    • CEA-Saclay

  • Perola Milman

    • Laboratoire Materiaux et Phenomenes Quantiques, Universite Paris Diderot