Surface acoustic wave resonators on thin film piezoelectric substrates in the quantum regime

Materials for Quantum Technology Pub Date : 2023-01-26 DOI:10.1088/2633-4356/acc9f6

Thomas Luschmann, Alexander Jung, S. Geprägs, F. Haslbeck, A. Marx, S. Filipp, S. Gröblacher, R. Gross, H. Huebl

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引用次数: 3

Abstract

Lithium niobate (LNO) is a well established material for surface acoustic wave (SAW) devices including resonators, delay lines and filters. Recently, multi-layer substrates based on LNO thin films have become commercially available. Here, we present a systematic low-temperature study of the performance of SAW devices fabricated on LNO-on-insulator and LNO-on-Silicon substrates and compare them to bulk LNO devices. Our study aims at assessing the performance of these substrates for quantum acoustics, i.e. the integration with superconducting circuits operating in the quantum regime. To this end, we design SAW resonators with a target frequency of 5 GHz and perform experiments at millikelvin temperatures and microwave power levels corresponding to single photons or phonons. The devices are investigated regarding their internal quality factors as a function of the excitation power and temperature, which allows us to characterize and quantify losses and identify the dominating loss mechanism. For the measured devices, fitting the experimental data shows that the quality factors are limited by the coupling of the resonator to a bath of two-level-systems. Our results suggest that SAW devices on thin film LNO on silicon have comparable performance to devices on bulk LNO and are viable for use in SAW-based quantum acoustic devices.

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量子态下压电薄膜基底上的表面声波谐振器

铌酸锂(LNO)是一种成熟的表面声波(SAW)器件材料，包括谐振器、延迟线和滤波器。近年来，基于LNO薄膜的多层衬底已经商品化。在这里，我们对LNO-on-绝缘体和LNO-on-硅衬底上制造的SAW器件的性能进行了系统的低温研究，并将它们与体LNO器件进行了比较。我们的研究旨在评估这些基板在量子声学中的性能，即与量子状态下运行的超导电路的集成。为此，我们设计了目标频率为5 GHz的SAW谐振器，并在毫开尔文温度和单光子或声子对应的微波功率水平下进行了实验。研究了器件内部质量因子作为激励功率和温度的函数，这使我们能够表征和量化损耗，并确定主要损耗机制。对于被测器件，拟合实验数据表明，谐振器与两级系统的耦合限制了质量因子。我们的研究结果表明，在硅上薄膜LNO上的SAW器件与在体LNO上的器件具有相当的性能，并且可以用于基于SAW的量子声学器件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials for Quantum Technology

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