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