Microwave-based CPHASE gates for transmon qubits

George Barron; Fernando Calderon-Vargas; Sophia Economou

Microwave-based CPHASE gates for transmon qubits

ORAL

Abstract

Superconducting transmon qubits are of great interest for quantum simulation of quantum chemistry. A key component of these algorithms is breaking up the evolution into small steps, which naturally leads to the need for non-maximally entangling, arbitrary CPHASE gates. Here we design such microwave-based gates using an analytically solvable approach leading to smooth, simple pulses. Our protocol allows for the continuous tuning of the phase. We find CPHASE fidelities of more than 0.999 and typical gate times less than 100ns.

^*This research is supported by the Department of Energy, Advanced Scientific Computing Research Quantum Testbed Pathfinder Program under FWP ERKJ332.

March 6, 2019, 12:03 PM – March 6, 2019, 12:15 PM

Presenters

George Barron
- Department of Physics, Virginia Tech
- Virginia Tech

Authors

George Barron
- Department of Physics, Virginia Tech
- Virginia Tech
Fernando Calderon-Vargas
- Department of Physics, Virginia Tech
Sophia Economou
- Virginia Tech
- Department of Physics, Virginia Tech
- Physics, Virginia Tech
- Physics, Virgina Tech