高对比度,低温,大微镜阵列多目标光谱

F. Zamkotsian, M. Canonica, P. Lanzoni, W. Noell
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引用次数: 0

摘要

天文学中下一代多目标光谱仪(MOS)将使用基于mems的可编程狭缝掩模。采用体微加工和表面微加工技术,采用晶圆级键合技术,制备了具有2048个可倾斜微镜的大型微镜阵列。微镜尺寸为100μm × 200 μm,具有良好的表面平整度。镜面结构以及25°的大机械倾斜角度导致高对比度设备,在1000:1的顺序,大到足以在MOS视场中的对象和背景排斥。最后,在162K低温冷却之前、过程中和之后,成功地启动了微镜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High contrast, cryogenic, large micromirror array for multi-object spectroscopy
Next generation of multi-object spectrographs (MOS) in astronomy will use MEMS-based programmable slit masks. Large micromirror arrays with 2048 tiltable micromirrors were fabricated using bulk and surface micro-machining, and wafer level bonding for the assembly. Micromirror size is 100μm × 200 μm and they exhibit very good surface flatness. Mirror architecture as well as a large mechanical tilt angle of 25° lead to a high contrast device, in the order of 1000:1, large enough for objects and background rejection in the MOS field of view. Finally, the micromirrors could be successfully actuated before, during and after cryogenic cooling at 162K.
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