Litcius/Paper detail

Fast High-Fidelity Gates for Galvanically-Coupled Fluxonium Qubits Using Strong Flux Modulation

Daniel Weiss, Helin Zhang, Chunyang Ding, Yuwei Ma, David I. Schuster, Jens Koch

2022PRX Quantum26 citationsDOIOpen Access PDF

Abstract

Long coherence times, large anharmonicity, and robust charge-noise insensitivity render fluxonium qubits an interesting alternative to transmons. Recent experiments have demonstrated record coherence times for low-frequency fluxonium qubits. Here, we propose a galvanic coupling scheme with flux-tunable XX coupling. To implement a high-fidelity entangling iSWAP gate, we modulate the strength of this coupling and devise variable-time identity gates to synchronize required single-qubit operations. Both types of gates are implemented using strong ac flux drives, lasting for only a few drive periods. We employ a theoretical framework capable of capturing qubit dynamics beyond the rotating-wave approximation as required for such strong drives. We predict an open-system fidelity of F > 0.999 for the iSWAP gate under realistic conditions.

Topics & Concepts

QubitFidelityPhysicsCoupling (piping)Coherence (philosophical gambling strategy)Computer scienceQuantum mechanicsElectronic engineeringElectrical engineeringTelecommunicationsEngineeringQuantumMechanical engineeringQuantum and electron transport phenomenaQuantum Information and CryptographyMechanical and Optical Resonators