Ultra-High-Q Nanomechanics Through Dissipation Dilution: Trends and Perspectives

N. J. Engelsen, Aman R. Agrawal, Dalziel J. Wilson
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Abstract

Strained nanomechanical resonators have recently achieved quality factors of 1 billion through the phenomenon of dissipation dilution. Remarkably, the potential of these devices seems unexhausted, exhibiting a scaling law of roughly one order of magnitude (in $Q$ factor) every three years. This paper reviews advances which led to this point, including phononic crystal “soft-clamping,” strain engineering, and a trend towards centimeter-scale devices with extreme aspect ratios. Recent trends include investigation of strained crystalline thin films, fractal-patterned supports, and machine-learning-optimized supports. New possibilities emerging from these advances range from cavity free quantum optomechanics to ultra-sensitive accelerometry.
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通过耗散稀释的超高q纳米力学:趋势和前景
应变纳米机械谐振器最近通过耗散稀释现象达到了10亿的质量因数。值得注意的是,这些设备的潜力似乎没有枯竭,每三年显示出大约一个数量级(以$Q$因子为单位)的缩放定律。本文回顾了导致这一点的进展,包括声子晶体“软箝位”,应变工程,以及具有极端宽高比的厘米级器件的趋势。最近的趋势包括对应变晶体薄膜、分形支撑和机器学习优化支撑的研究。从无腔量子光力学到超灵敏加速度测量,这些进步带来了新的可能性。
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