A preferential coating technique for fabricating large, high quality optics

S.G. Alcock; S. Cockerton

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A preferential coating technique for fabricating large, high quality optics

机译：制造大型，高质量光学元件的优先镀膜技术

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摘要

A major challenge facing optic manufacturers is the fabrication of large mirrors ( > 1 m) with minimal residual slope errors ( < 0.5 μrad rms). We present a differential coating method with the potential to satisfy such exacting technical demands. Iterative cycles of measurement using the Diamond-NOM, followed by preferential deposition, were performed on a 1200 mm long, silicon mirror. The applied coatings were observed to reduce the optical slope and figure errors from 1.62 to 0.44 urad rms, and from 208 to 13 nm rms, respectively. It is hoped that this research will lead to commercially available products, of direct benefit to the Synchrotron, Free Electron Laser, Astronomy, Space, and Laser communities, who all require state-of-the-art optics.

机译：光学制造商面临的主要挑战是制造具有最小残留斜率误差（<0.5μradrms）的大反射镜（> 1 m）。我们提出了一种有可能满足这种严格的技术要求的差分涂层方法。在1200毫米长的硅镜上使用Diamond-NOM进行测量的迭代循环，然后进行优先沉积。观察到所施加的涂层将光学斜率和图形误差分别从1.62 urad rms和从208 rms降低到13 nm rms。希望这项研究将导致对同步加速器，自由电子激光，天文学，太空和激光界直接有益的商业化产品，这些领域都需要最新的光学器件。

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来源
《Nuclear instruments and methods in physics research》 |2010年第3期|110-114|共5页
作者
S.G. Alcock; S. Cockerton;
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作者单位

Diamond Light Source Ltd., Harwell Science & Innovation Campus, Oxfordshire 0X11 ODE, UK;

Crystal Scientific (UK) Ltd., Alnwick, Northumberland NE66 4SU, UK;

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原文格式 PDF
正文语种 eng
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关键词
preferential deposition; diamond-NOM; metrology; synchrotron mirrors; optics;

机译：优先沉积;钻石NOM;计量同步加速镜光学;

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A preferential coating technique for fabricating large, high quality optics

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