Compact optical delay line based on scanning surface micromachined polysilicon mirrors

2000 IEEE/LEOS International Conference on Optical MEMS (Cat. No.00EX399) Pub Date : 2000-08-21 DOI:10.1109/OMEMS.2000.879605

K. Cornett, J. Heritage

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引用次数: 2

Abstract

The rapid scanning optical delay (RSOD), which is based on femtosecond pulse shaping technology, was developed to overcome the speed limitations of traditional approaches. In an RSOD the traditional translating mirror is replaced by a scanning mirror with a rotation angle of a few degrees. We present the integration of a scanning silicon micromirror into a compact RSOD geometry only about 5 cm in length. We demonstrate a 40 ps rapid scanning optical delay of 100 fs time scale optical pulses. Our RSOD is based on a surface micromachined tilt-up mirror. The polysilicon mirror is connected to a supporting frame with torsional polysilicon beams and is dynamically driven by an electrostatic comb-drive actuator. The rectangular mirror face is 760 /spl mu/m by 500 /spl mu/m, with a resonant frequency of 1060 Hz and a measured range of deflection of 16 degrees optical. The residual stress gradients give the micromirror a measured convex radius of curvature of 34 cm. The RSOD is characterized using a Michelson interferometer. The frequency and deflection characteristics of the micromirror are presented.

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基于扫描表面微加工多晶硅镜的紧凑型光延迟线

基于飞秒脉冲整形技术的快速扫描光延迟(RSOD)是为了克服传统方法的速度限制而发展起来的。在RSOD中，传统的平移镜被旋转角度为几度的扫描镜所取代。我们提出了一个扫描硅微镜集成到一个紧凑的RSOD几何只有大约5厘米长。我们演示了100 fs时间尺度光脉冲的40 ps快速扫描光延迟。我们的RSOD是基于表面微机械倾斜镜面。多晶硅镜连接到具有扭转多晶硅梁的支撑架上，并由静电梳状驱动器动态驱动。矩形镜面面积为760 /spl mu/m × 500 /spl mu/m，谐振频率为1060hz，测量偏转范围为16°光学。残余应力梯度使微镜的测量凸曲率半径为34厘米。使用迈克尔逊干涉仪对RSOD进行了表征。给出了微镜的频率特性和偏转特性。

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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2000 IEEE/LEOS International Conference on Optical MEMS (Cat. No.00EX399)

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