Related papers: Low-characteristic-impedance superconducting tadpole resonators in the sub-gigahertz regime

Low-characteristic-impedance superconducting tadpole resonators in the sub-gigahertz regime

URL: http://arxiv.org/abs/2409.02558v2
Date: Tue, 1 Oct 2024 08:11:25 GMT
Title: Low-characteristic-impedance superconducting tadpole resonators in the sub-gigahertz regime
Authors: Miika Rasola, Samuel Klaver, Jian Ma, Priyank Singh, Tuomas Uusnäkki, Heikki Suominen, Mikko Möttönen,
Abstract summary: We demonstrate a simple and versatile resonator design based on a short strip of a typical coplanar waveguide shorted at one end to the ground and shunted at the other end with a large parallel-plate capacitor. We conclude that these tadpole resonators are well suited for applications requiring low frequency and low charactersitic impedance while maintaining a small footprint on chip.
Score: 0.9890132823939973
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We demonstrate a simple and versatile resonator design based on a short strip of a typical coplanar waveguide shorted at one end to the ground and shunted at the other end with a large parallel-plate capacitor. Due to the shape of the structure, we coin it the tadpole resonator. The design allows tailoring the characteristic impedance of the resonator to especially suit applications requiring low values. We demonstrate characteristic impedances ranging from $Z_c = 2\,{\Omega}$ to $10\,{\Omega}$ and a frequency range from $f_0 = 290\,\mathrm{MHz}$ to $1.1\,\mathrm{GHz}$ while reaching internal quality factors of order $Q_{\mathrm{int}} = 8.5\times 10^3$ translating into a loss tangent of $\tan({\delta}) = 1.2\times 10^{-4}$ for the aluminium oxide used as the dielectric in the parallel plate capacitor. We conclude that these tadpole resonators are well suited for applications requiring low frequency and low charactersitic impedance while maintaining a small footprint on chip. The low characteristic impedance of the tadpole resonator renders it a promising candidate for achieving strong inductive coupling to other microwave components.

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