Fabrication of Optical Components by Ultraprecision Finishing Processes
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Publisher
Springer International Publishing
Link
http://link.springer.com/content/pdf/10.1007/978-3-319-68801-5_5
Reference118 articles.
1. Peng W, Guan C, Li S (2013) Ultrasmooth surface polishing based on the hydrodynamic effect. Appl Opt 52(25):6411–6416
2. Zhang SJ, To S, Zhu ZW, Zhang GQ (2015) A review of surface roughness generation in ultra-precision machining. Int J Mach Tools Manuf 91:76–95
3. Li Y, Wu Y, Wang J, Yang W, Guo Y, Xu Q (2012) Tentative investigation towards precision polishing of optical components with ultrasonically vibrating bound-abrasive pellets. Opt Express 20:568–575
4. Dinger U, Seitz G, Schulte S, Eisert F, Muenster C, Burkart S, Stacklies S, Bustaus C, Hoefer H, Mayer M, Fellner B (2004) Fabrication and metrology of diffraction limited soft x-ray optics for the EUV microlithography. In: Optical science and technology, SPIE’s 48th annual meeting. International Society for Optics and Photonics, pp 18–28
5. Schindler A, Haensel T, Nickel A, Thomas HJ, Lammert H, Siewert F (2004) Finishing procedure for high-performance synchrotron optics. In: Optical science and technology, SPIE’s 48th annual meeting. International Society for Optics and Photonics, pp 64–72
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