A new method of probing mechanical losses of coatings at cryogenic   temperatures

Serge Galliou; Samuel Del\'eglise; Maxim Goryachev; Leonhard Neuhaus,; Gianpietro Cagnoli; Salim Zerkani; Vincent Dolique; Xavier Vacheret; Philippe; Abb\'e; Laurent Pinard; Christophe Michel; Thibaut Karassouloff; Tristan; Briant; Pierre-Fran\c{c}ois Cohadon; Antoine Heidmann; Michael E. Tobar,; Roger Bourquin

arXiv:1605.07697·physics.ins-det·January 4, 2017

A new method of probing mechanical losses of coatings at cryogenic temperatures

Serge Galliou, Samuel Del\'eglise, Maxim Goryachev, Leonhard Neuhaus,, Gianpietro Cagnoli, Salim Zerkani, Vincent Dolique, Xavier Vacheret, Philippe, Abb\'e, Laurent Pinard, Christophe Michel, Thibaut Karassouloff, Tristan, Briant, Pierre-Fran\c{c}ois Cohadon, Antoine Heidmann

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TL;DR

This paper introduces a novel method for measuring mechanical losses in coatings at cryogenic temperatures using high-quality quartz acoustic cavities, enabling precise comparison of different coating materials in the 1-100 MHz range.

Contribution

The paper presents a new measurement technique utilizing quartz acoustic cavities to evaluate coating losses at cryogenic temperatures, improving accuracy over previous methods.

Findings

01

Ta2O5/SiO2 coating exhibits a loss angle below 1.6×10^{-5} at 30 MHz and 4 K.

02

The method allows comparison of metallic and dielectric coatings in cryogenic conditions.

03

Results demonstrate the effectiveness of the approach for different coating materials.

Abstract

A new method of probing mechanical losses and comparing the corresponding deposition processes of metallic and dielectric coatings in 1-100 MHz frequency range and cryogenic temperatures is presented. The method is based on the use of extremely high-quality quartz acoustic cavities whose internal losses are orders of magnitude lower than any available coatings nowadays. The approach is demonstrated for Chromium, Chromium/Gold and a multilayer tantala/silica coatings. The $Ta_{2} O_{5} / Si O_{2}$ coating has been found to exhibit a loss angle lower than $1.6 \times 1 0^{- 5}$ near 30 {\rm MHz} at 4 {\rm K}. The results are compared to the previous measurements.

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Taxonomy

TopicsAcoustic Wave Resonator Technologies · Ultrasonics and Acoustic Wave Propagation · Advanced ceramic materials synthesis