SU(4) gate design via unitary process tomography: its application to cross-resonance based superconducting quantum devices
Abstract
We present a novel approach for implementing pulse-efficient SU(4) gates on cross resonance (CR)-based superconducting quantum devices. Our method introduces a parameterized unitary derived from the CR-Hamiltonian propagator, which accounts for static-ZZ interactions. Leveraging the Weyl chamber's geometric structure, we successfully realize a continuous 2-qubit basis gate, RZZ(θ), as an echo-free pulse schedule on the IBM Quantum device ibmkawasaki. We evaluate the average fidelity and gate time of various SU(4) gates generated using the RZZ(θ) to confirm the advantages of our implementation.
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