Novel Coupling for RIP Gate Based Devices

Muir Kumph; James J Raftery; Will Shanks; Aaron Finck; John Blair; George Keefe; Santino Carnevale; Vincent Arena; Shawn Hall; Dave Klaus; Oliver E. Dial

Novel Coupling for RIP Gate Based Devices

ORAL

Abstract

Resonator Induced Phase (RIP) gates are an intriguing way to command many-bodied interactions in a superconducting-qubit based device. Here we present a novel RIP-coupler based 6 qubit device with 2D square lattice connectivity to demonstrate two-qubit gates with a fidelity exceeding 98.8% running algorithmic benchmarks. Theoretical and experimental limits of the RIP gate are also discussed.

March 18, 2021, 1:54 PM – March 18, 2021, 2:06 PM

Presenters

Muir Kumph
- IBM TJ Watson Research Center
- IBM Quantum

Authors

Muir Kumph
- IBM TJ Watson Research Center
- IBM Quantum
James J Raftery
- IBM TJ Watson Research Center
- IBM Quantum
Will Shanks
- IBM TJ Watson Research Center
Aaron Finck
- IBM TJ Watson Research Center
John Blair
- IBM TJ Watson Research Center
- IBM Corporation
George Keefe
- IBM TJ Watson Research Center
- IBM Quantum
Santino Carnevale
- IBM Quantum, IBM T. J. Watson Research Center, Yorktown Heights, NY 10598, USA
- IBM TJ Watson Research Center
- IBM Quantum
Vincent Arena
- IBM TJ Watson Research Center
Shawn Hall
- IBM TJ Watson Research Center
Dave Klaus
- IBM TJ Watson Research Center
- IBM Quantum
Oliver E. Dial
- IBM TJ Watson Research Center
- IBM Quantum
- Massachusetts Institute of Technology MIT