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arxiv: 2312.12755 · v1 · pith:G6EW6AGKnew · submitted 2023-12-20 · ❄️ cond-mat.supr-con

Flux coupled tunable superconducting resonator

classification ❄️ cond-mat.supr-con
keywords resonatorfrequencyinductancekineticsuperconductingfeedlinefluxachieved
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We present a design and implementation of frequency-tunable superconducting resonator. The resonance frequency tunability is achieved by flux-coupling a superconducting LC-loop to a current-biased feedline; the resulting screening current leads to a change of the kinetic inductance and shift in the resonance frequency. The thin film aluminum resonator consists of an interdigitated capacitor and thin line inductors forming a closed superconducting loop. The magnetic flux from the nearby current feedline induces Meissner shielding currents in the resonator loop leading to change in the kinetic part of the total inductance of the resonator. We demonstarte continuous frequency tuning within 160 MHz around the resonant frequency of 2.7 GHz. We show that: (1) frequency upconversion is achieved when kHz AC modulation signal is superimposed onto the DC bias resulting in sidebands to the resonator tone; (2) three-wave mixing is attained by parametrically pumping the nonlinear kinetic inductance using a strong RF pump signal in the feedline. The simple architecture is amenable to large array multiplexing and on-chip integration with other circuit components. The concept could be applied in flux magnetometers, upconverters, and parametric amplifiers operating above 4 Kelvin cryogenic temperatures when alternative high critical temperature material with high kinetic inductance is used.

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

  1. On-Chip Resonator for Nonlinear Kinetic Inductance Characterisation and Future Spectrometry Applications

    astro-ph.IM 2026-05 unverdicted novelty 3.0

    Characterization of tunable on-chip resonators using nonlinear kinetic inductance in evaporated aluminum films with controlled oxygen content for future mm-wave spectrometry.