等离子体射流加工新一代线性啁啾斜坡型材

H. Müller, G. Böhm, T. Arnold
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引用次数: 3

摘要

等离子射流加工是一种成熟的超精密表面加工工艺。使用常压反应等离子体射流作为非机械工具,可以实现几纳米到毫米的去除。为了进一步提高加工的确定性,表面形状的测量技术也必须得到相应的改进。准确了解仪器传递函数对于区分测量伪影和可靠的测量结果是必要的。等离子体射流刻蚀制备的精密正弦表面结构可作为确定仪器传递函数的校准元件,如纳米光学元件测量机(NOM)等斜率测量装置。介绍了制造这种校准元件的步骤,包括理论考虑、等离子体射流参数的调整和在不同基材上的实现。最后,在单晶硅板上制备了啁啾正弦结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Next generation of a linear chirped slope profile fabricated by plasma jet machining
Plasma Jet Machining is an established process in ultra-precision surface manufacturing. Removal of several nanometers up to millimeters can be achieved using the atmospheric pressure reactive plasma jet as a non-mechanical tool. Surface form measuring techniques have to be improved equally, to further enhance the deterministic machining. Exact knowledge of the instrument transfer function is necessary to distinguish measurement artefacts and reliable measurement results. Precise sinusoidal surface structures prepared by plasma jet etching can be used as calibration elements to determine the instrument transfer function, e.g. slope-measuring devices like Nanometer Optical component measuring Machine (NOM). The steps for manufacturing such calibration elements including theoretical considerations, adjustment of the plasma jet parameters and implementations on different substrates are presented. Finally, a chirped sinusoidal structure on a singlecrystalline silicon slab is fabricated.
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