悬臂梁式硅纳米谐振器的量子压缩效应  

Quantum-squeezing effects of silicon cantilever nano-resonators

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作  者:张霞[1] 闫社平 

机构地区:[1]西安邮电学院电子工程学院,陕西西安710100 [2]上海汉得信息技术股份有限公司,上海201203

出  处:《光学精密工程》2012年第4期760-765,共6页Optics and Precision Engineering

基  金:西安邮电学院中青年教师科研基金资助项目(No.0001282)

摘  要:分析了厚度分别为12nm和38.5nm的悬臂梁式硅纳米谐振器内由海森堡不确定原理所决定的零点位置不确定度,分析结果表明,零点位置不确定度与悬臂梁的厚度和宽度成反比、与悬臂梁的长度成正比,12nm厚的悬臂梁其零点位置不确定度为4.1×10-3 nm。结合参量泵量子压缩技术,分析了不同厚度的悬臂梁式硅纳米谐振器的量子压缩系数与器件结构尺寸、温度、泵激电压之间的关系,结果显示,量子压缩系数与温度成正比、与泵激电压成反比。当温度为0.01K、泵激电压为4V时,12nm厚的悬臂梁式硅纳米谐振器的量子噪声降低了26.56dB。该项研究有助于提高极薄悬臂梁式硅纳米谐振器在量子噪声影响下的极限检测精度。This paper analyzed the zero-point displacement uncertainty determined by Heisenberg uncertainty principle in the silicon cantilever nano-resonators with the thicknesses of 12 nm and 38.5 nm.The analysis results show that the zero-point displacement uncertainty is inversely proportional to the thickness and width of the cantilever and proportional to the length of the cantilever,and the zero-point displacement uncertainty of the silicon cantilever nano-resonator with the thickness of 12 nm is 4.1×10-3 nm.Combining the parametric pumping quantum squeezing technique,the relationships between the quantum-squeezing factors of the silicon cantilever nano-resonators with different thicknesses and their structure dimensions,temperatures,pumping voltages were analyzed.The analysis results show that the quantum-squeezing factor is proportional to the temperature,and inversely proportional to the pumping voltage.When the temperature is 0.01 K and the pumping voltage equals 4 V,the quantum noise of the silicon cantilever nano-resonator with the thickness of 12 nm is reduced by 26.56 dB.The analysis results promote the improvement of the measurement accuracy of the ultra-thin cantilever nano-resonators under the influence of the quantum noises observably.

关 键 词:纳米谐振器 悬臂梁 量子噪声 量子压缩 零点位置不确定度 

分 类 号:TN752[电子电信—电路与系统] TH824[机械工程—仪器科学与技术]

 

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