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Decay-protected superconducting qubit with fast control enabled by integrated on-chip filters

Aashish Sah, S. Kundu, Heikki Suominen, Qiming Chen, Mikko Möttönen

2024Communications Physics11 citationsDOIOpen Access PDF

Abstract

Abstract Achieving fast gates and long coherence times for superconducting qubits presents challenges, typically requiring either a stronger coupling of the drive line or an excessively strong microwave signal to the qubit. To address this, we introduce on-chip filters of the qubit drive exhibiting a stopband at the qubit frequency, thus enabling long coherence times and strong coupling at the subharmonic frequency, facilitating fast single-qubit gates, and reduced thermal load. The filters exhibit an extrinsic relaxation time of a few seconds while enabling sub-10-ns gates with subharmonic control. Here we show up to 200-fold improvement in the measured relaxation time at the stopband. Furthermore, we implement subharmonic driving of Rabi oscillations with a π pulse duration of 12 ns. Our demonstration of on-chip filters and efficient subharmonic driving in a two-dimensional quantum processor paves the way for a scalable qubit architecture with reduced thermal load and noise from the control line.

Topics & Concepts

ChipSuperconductivityQubitControl (management)PhysicsOptoelectronicsComputer scienceQuantum mechanicsTelecommunicationsQuantumArtificial intelligenceQuantum and electron transport phenomenaQuantum Information and CryptographyQuantum Computing Algorithms and Architecture
Decay-protected superconducting qubit with fast control enabled by integrated on-chip filters | Litcius