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arxiv: 1808.09612 · v2 · pith:6KTSUNUDnew · submitted 2018-08-29 · 🪐 quant-ph

High speed flux sampling for tunable superconducting qubits with an embedded cryogenic transducer

classification 🪐 quant-ph
keywords fluxtransducerfrequencyqubitsresponsesettlingsuperconductingtunable
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We develop a high speed on-chip flux measurement using a capacitively shunted SQUID as an embedded cryogenic transducer and apply this technique to the qualification of a near-term scalable printed circuit board (PCB) package for frequency tunable superconducting qubits. The transducer is a flux tunable LC resonator where applied flux changes the resonant frequency. We apply a microwave tone to probe this frequency and use a time-domain homodyne measurement to extract the reflected phase as a function of flux applied to the SQUID. The transducer response bandwidth is 2.6 GHz with a maximum gain of $\rm 1200^\circ/\Phi_0$ allowing us to study the settling amplitude to better than 0.1%. We use this technique to characterize on-chip bias line routing and a variety of PCB based packages and demonstrate that step response settling can vary by orders of magnitude in both settling time and amplitude depending on if normal or superconducting materials are used. By plating copper PCBs in aluminum we measure a step response consistent with the packaging used for existing high-fidelity qubits.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. 3D integration and packaging for solid-state qubits

    quant-ph 2019-06 unverdicted novelty 2.0

    The paper reviews the importance of 3D integration and packaging for operating solid-state qubits in cryogenic environments.