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Extremely Low Loss Phonon-Trapping Cryogenic Acoustic Cavities for Future Physical Experiments

机译：极低损耗的声子捕获低温声腔可用于未来的物理实验

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Low loss Bulk Acoustic Wave devices are considered from the point of view of the solid state approach as phonon-confining cavities. We demonstrate effective design of such acoustic cavities with phonon-trapping techniques exhibiting extremely high quality factors for trapped longitudinally-polarized phonons of various wavelengths. Quality factors of observed modes exceed 1 billion, with a maximum Q-factor of 8 billion and Q × f product of 1.6 · 10¹⁸ at liquid helium temperatures. Such high sensitivities allow analysis of intrinsic material losses in resonant phonon systems. Various mechanisms of phonon losses are discussed and estimated.

机译：从固态方法的观点来看，低损耗的体声波器件被认为是声子约束腔。我们用声子俘获技术证明了这种声腔的有效设计，该技术对截获的各种波长的纵向极化声子表现出极高的品质因数。在液氦温度下，观测模式的质量因子超过10亿，最大Q因子为80亿，Q×f乘积为1.6·10 ^{18 。如此高的灵敏度可以分析共振声子系统中固有的材料损耗。讨论和估计了声子损失的各种机制。}

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期刊名称 Scientific Reports
作者
Serge Galliou; Maxim Goryachev; Roger Bourquin; Philippe Abbé; Jean Pierre Aubry; Michael E. Tobar;
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年(卷),期 -1(3),-1
年度 -1
页码 2132
总页数 6
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1. Extremely Low Loss Phonon-Trapping Cryogenic Acoustic Cavities for Future Physical Experiments [J] . Serge Galliou, Maxim Goryachev, Roger Bourquin, Scientific reports. . 2013,第1期

机译：极低损耗的声子捕获低温声腔，可用于未来的物理实验
2. Observation of Rayleigh Phonon Scattering through Excitation of Extremely High Overtones in Low-Loss Cryogenic Acoustic Cavities for Hybrid Quantum Systems [J] . Maxim Goryachev, Daniel L. Creedon, Serge Galliou, Physical review letters . 2013,第8期

机译：混合量子系统在低损耗低温声腔中激发极高泛音引起的瑞利声子散射的观察
3. Extremely low-loss acoustic phonons in a quartz bulk acoustic wave resonator at millikelvin temperature [J] . Goryachev Maxim Applied Physics Letters . 2012,第24期

机译：石英体声波谐振器中在极小温度下的极低损耗声子
4. Recent progress and perspectives of extremely low loss acoustic cavities: From frequency sources to artificial atoms [C] . Goryachev Maxim, Tobar Michael E., Galliou Serge 2013 Joint European Frequency and Time Forum amp; International Frequency Control Symposium . 2013

机译：低损耗声腔的最新进展和观点：从频率源到人造原子
5. An experiment to measure low-frequency acoustic backscatter from the ocean wave surface: The Acoustic Surface Reverberation EXperiment, ASREX. [D] . Williams, Neil J. 1996

机译：测量海浪表面低频声学反向散射的实验：声学表面混响实验，ASREX。
6. Original article: Comparison of physical activity and body composition in a cohort of children born extremely preterm or with extremely low birth weight to matched term-born controls: a follow-up study [O] . Mette Engan, Maria Vollsæter, Knut Øymar, 2019

机译：原始文章：一组早产或极低出生体重的儿童与相匹配的足月对照组的身体活动和身体成分的比较：一项后续研究
7. Extremely Low Loss Phonon-Trapping Cryogenic Acoustic Cavities for Future Physical Experiments [O] . Galliou, Serge, Goryachev, Maxim, Bourquin, Roger, 2013

机译：极低损耗的声子捕获低温声腔，可用于未来的物理实验
8. Low-Frequency Acoustic Propagation Loss in the Arctic Ocean: Results of the Arctic Climate Observations using Underwater Sound Experiment [R] . Gavrilov, A. N. , Mikhalevsky, P. N. 2004

机译：北冰洋低频声传播损失：利用水下声音实验进行北极气候观测的结果

Extremely Low Loss Phonon-Trapping Cryogenic Acoustic Cavities for Future Physical Experiments

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