Ion beam figuring of continuous phase plates based on the frequency filtering process

Mingjin XU; Yifan DAI; Xuhui XIE; Lin ZHOU; Shengyi LI; Wenqiang PENG

doi:10.1007/s11465-017-0430-5

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Front. Mech. Eng. ›› 2017, Vol. 12 ›› Issue (1) : 110-115. DOI: 10.1007/s11465-017-0430-5

RESEARCH ARTICLE

Ion beam figuring of continuous phase plates based on the frequency filtering process

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Abstract

Ion beam figuring (IBF) technology is an effective technique for fabricating continuous phase plates (CPPs) with small feature structures. This study proposes a multi-pass IBF approach with different beam diameters based on the frequency filtering method to improve the machining accuracy and efficiency of CPPs during IBF. We present the selection principle of the frequency filtering method, which incorporates different removal functions that maximize material removal over the topographical frequencies being imprinted. Large removal functions are used early in the fabrication to figure the surface profile with low frequency. Small removal functions are used to perform final topographical correction with higher frequency and larger surface gradient. A high-precision surface can be obtained as long as the filtering frequency is suitably selected. This method maximizes the high removal efficiency of the large removal function and the high corrective capability of the small removal function. Consequently, the fast convergence of the machining accuracy and efficiency can be achieved.

Keywords

ion beam figuring (IBF) / continuous phase plates (CPPs) / machining accuracy / machining efficiency / frequency filtering process

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Mingjin XU, Yifan DAI, Xuhui XIE, Lin ZHOU, Shengyi LI, Wenqiang PENG. Ion beam figuring of continuous phase plates based on the frequency filtering process. Front. Mech. Eng., 2017, 12(1): 110‒115 https://doi.org/10.1007/s11465-017-0430-5

References

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[1]	Menapace J A, Davis P J, Steele W A, . MRF applications: On the road to making large-aperture ultraviolet laser resistant continuous phase plate for high-power lasers. Proceedings of the Society for Photo-Instrumentation Engineers, 2006, 6403: 64030N CrossRef Google scholar

[2]	Néauport J, Ribeyre X, Daurios J, . Design and optical characterization of a large continuous phase plate for laser integration line and laser megajoule facilities. Applied Optics, 2003, 42(13): 2377–2382 CrossRef Google scholar

[3]	Menapace J A, Dixit S N, Genin F Y, . Magnetorheological finishing for imprinting continuous phase plate structure onto optical surfaces. Proceedings of the Society for Photo-Instrumentation Engineers, 2004, 5273: 220–230 CrossRef Google scholar

[4]	Tricard M, Dumas P, Menapace J. Continuous phase plate polishing using Magnetorheological Finishing. Proceedings of the Society for Photo-Instrumentation Engineers, 2008, 7062: 70620V CrossRef Google scholar

[5]	Beau V, Valla D, Daurios J, . Metrology of focusing gratings and continuous phase plates for LIL and LMJ lasers. Proceedings of the Society for Photo-Instrumentation Engineers, 2004, 5252: 148–155 CrossRef Google scholar

[6]	Xu J, Zhao Y, Wang W, . Design and fabrication of diffractive optical elements for ion beam moving etching technology. Optics Technology, 2002, 28(4): 345–350

[7]	Xu M, Dai Y, Xie X, . Structure optimization and fabricating capability analysis of an ion-beam machine for sub-nanometer optical surface. Applied Optics, 2015, 54(27): 8055–8061 CrossRef Google scholar

[8]	Liao W, Dai Y, Xie X, . Microscopic morphology evolution during ion beam smoothing of Zerodur® surfaces. Optics Express, 2014, 22(1): 377–386 CrossRef Google scholar

[9]	Hansel T, Nickel A, Schindler A. Ion beam figuring of strongly curved surfaces with a (X, Y, Z) linear three-axes system. In: Frontiers in Optics 2008/Laser Science XXIV/Plasmonics and Metamaterials/Optical Fabrication and Testing. 2008, JWD6

[10]	Liao W, Dai Y, Xie X, . Corrective capability analysis and machining error control in ion beam figuring of high-precision optical mirrors. Optical Engineering, 2012, 51(3): 033402 CrossRef Google scholar

Acknowledgements

We gratefully acknowledge the support of the National Natural Science Foundation of China (Grant Nos. 91323302 and 61505259) and the Program for New Century Excellent Talents in University (NCET-13-0165).