Fast high-fidelity entangling gates in Si double quantum dots

Fernando Calderon-Vargas; George Barron; Xiuhao Deng; Edwin Barnes; Sophia Economou

Fast high-fidelity entangling gates in Si double quantum dots

ORAL

Abstract

High-fidelity two-qubit gates remain a challenge for spin qubits in quantum dots, partly due to the exchange coupling’s sensitivity to charge noise and relatively longer gate times. Here we show that, by using simple smooth pulses to control the amplitude of the oscillating magnetic field, entangling gates locally equivalent to control-NOT and control-Z gates can be implemented in times as low as 26 ns and with fidelities up to 99.99%. Moreover, we provide the particular single-qubit gates necessary to make the two-qubit gates exactly equal to the CNOT and CZ gates.

^*This work is supported by the Army Research Office (W911NF-17-0287).

March 5, 2019, 10:12 AM – March 5, 2019, 10:24 AM

Presenters

Fernando Calderon-Vargas
- Virginia Tech

Authors

Fernando Calderon-Vargas
- Virginia Tech
George Barron
- Department of Physics, Virginia Tech
- Virginia Tech
Xiuhao Deng
- Shenzhen Institute of Quantum Science and Engineering, SUSTech
- Virginia Tech
Edwin Barnes
- Virginia Tech
- Physics, Virginia Tech
- Physics, Virgina Tech
Sophia Economou
- Virginia Tech
- Department of Physics, Virginia Tech
- Physics, Virginia Tech
- Physics, Virgina Tech