绝缘体上悬浮式砷化镓声子波导中2ghz声波的慢传播

G. Modica, R. Zhu, R. Horváth, G. Beaudoin, I. Sagnes, R. Braive
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引用次数: 6

摘要

光电子振荡器由于其在频率稳定性和相位噪声方面的优异性能,近年来在微波振荡器领域占据主导地位。然而,这种设备的小型化是一个最新的挑战。最近,基于声子-光子相互作用的器件由于其极端紧凑和工作频率直接在GHz而引起了人们的极大兴趣。在这个框架中,仍然缺少获得长期频率稳定性能的元素是反馈回路中的片上延迟。在这里,我们实验展示了2 GHz声波在硅片上非均匀集成的砷化镓膜上的滤波和慢传播。通过设计声波导的色散,我们证明了能够传播的模式的群速度低于1000米/秒。因此,集成延迟实现可用于光声设备(如光机械振荡器或无线应用)的潜在改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Slow propagation of 2 GHz acoustical waves in a suspended GaAs phononic waveguide on insulator
Optoelectronic oscillators have dominated the scene of microwave oscillators in the last few years thanks to their great performances regarding frequency stability and phase noise. However, miniaturization of such a device is an up to date challenge. Recently, devices based on phonon-photon interaction gather a lot of interest thanks to their extreme compactness and working frequency directly in the GHz. In this frame, a still missing element to obtain long-term frequency stability performances is an on-chip delay within the feedback loop. Here, we experimentally show filtering and slow propagation of 2 GHz acoustic waves on a Gallium Arsenide membrane heterogeneously integrated on silicon wafer. By engineering the dispersion of an acoustical waveguide, we evidence a group velocity below 1000 m/s for the mode able to propagate. Thus, an integrated delay implementation is at reach for potential improvement of opto-acoustic devices such as optomechanical oscillators or wireless applications.
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