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High-impedance surface acoustic wave resonators
Authors
Arjun Iyer
Yadav P. Kandel
+3Â more
Suraj Thapa Magar
John M. Nichol
William H. Renninger
Publication date
22 June 2023
Publisher
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on
arXiv
Abstract
Because of their small size, low loss, and compatibility with magnetic fields and elevated temperatures, surface acoustic wave resonators hold significant potential as future quantum interconnects. Here, we design, fabricate, and characterize GHz-frequency surface acoustic wave resonators with the potential for strong capacitive coupling to nanoscale solid-state quantum systems, including semiconductor quantum dots. Strong capacitive coupling to such systems requires a large characteristic impedance, and the resonators we fabricate have impedance values above 100
Ω
\Omega
Ω
. We achieve such high impedance values by tightly confining a Gaussian acoustic mode. At the same time, the resonators also have low loss, with quality factors of several thousand at millikelvin temperatures. These high-impedance resonators are expected to exhibit large vacuum electric-field fluctuations and have the potential for strong coupling to a variety of solid-state quantum systems
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oai:arXiv.org:2306.12993
Last time updated on 26/06/2023