Ion-Trap Inspired Entangling Gate for Superconducting Qubits

Sydney Schreppler; Marie Lu; Lukas Buchmann; Felix Motzoi; Irfan Siddiqi

Ion-Trap Inspired Entangling Gate for Superconducting Qubits

ORAL

Abstract

High-fidelity gates entangling multiple qubits can be an invaluable resource for implementing efficient error correcting quantum codes. Trapped-ion qubits are routinely entangled with a high degree of connectivity with fidelity greater than 99% using the Mølmer-Sørensen gate. Multi-partite entanglement is mediated through the interaction of many qubits with a shared phonon mode combined with two-photon transitions induced by bi-chromatic fields. In this talk, we present experimental progress on developing an analogous protocol for entangling two superconducting qubits using a shared microwave photon mode. Such functionality can be extended to multi-qubit entanglement and harnessed for classical qubit stabilization feedback.

March 7, 2018, 12:12 PM – March 7, 2018, 12:24 PM

Presenters

Marie Lu

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

Authors

Sydney Schreppler

Physics, Univ of California -- Berkeley, Physics, Univ of California - Berkeley
Marie Lu

Physics, Univ of California -- Berkeley, Physics, Univ of California - Berkeley
Lukas Buchmann

Physics, Aarhus Univ, Physics, Aarhus University
Felix Motzoi

Theoretical Physics, Saarland University, Physics, Aarhus Univ, University of Arhus
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