Fabrication of Thin-Film Fresnel Optics by Combining Diamond Turning and Photolithographic Processes

Jiwang Yan; Kenta  Watanabe; Yutaro Nakagawa

doi:10.20965/ijat.2013.p0385

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IJAT Vol.7 No.4 pp. 385-390

doi: 10.20965/ijat.2013.p0385

(2013)

Paper:

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Fabrication of Thin-Film Fresnel Optics by Combining Diamond Turning and Photolithographic Processes

Jiwang Yan^*, Kenta Watanabe^, and Yutaro Nakagawa^

^*Department of Mechanical Engineering, Faculty of Science and Technology, Keio University, 3-14-1 Hiyoshi, Kohoku-ku, Yokohama 223-8522, Japan

^**Department of Mechanical Systems and Design, Graduate School of Engineering, Tohoku University, 6-6-01 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan

Received:

February 18, 2013

Accepted:

April 24, 2013

Published:

July 5, 2013

Keywords:

Fresnel lens, photolithography, ultraprecision cutting, diamond turning, optical elements

Abstract

A novel fabrication process is proposed for manufacturing thin-film metal Fresnel lenses for X-ray applications. This process combines diamond turning technology and photolithographic processes. To prevent thin-film lens substrates from deflection during diamond turning, films were prepared on single crystalline silicon wafers by electrolytic plating. After the Fresnel lens structure is generated on the metal thin films by diamond turning, the silicon substrate was then removed selectively by reactive ion etching. Experimental results demonstrated that the proposed hybrid fabrication process achieves submicron form accuracy and nanometer surface roughness.

Cite this article as:

J. Yan, K. Watanabe, and Y. Nakagawa, “Fabrication of Thin-Film Fresnel Optics by Combining Diamond Turning and Photolithographic Processes,” Int. J. Automation Technol., Vol.7 No.4, pp. 385-390, 2013.

Data files:

References

[1] G. K. Skinner, “Diffractive/refractive optics for high energy astronomy, I. Gamma-ray phase Fresnel lenses,” Astronomy & Astrophysics, Vol.375, pp. 691-700, 2001.
[2] G. K. Skinner, Z. Arzoumanian, W. C. Cash, N. Gehrels, K. C. Gendreau, P. Gorenstein, J. F. Krizmanic, M. C. Miller, J. D. Phillips, R. D. Reasenberg, C. S., Reynolds, R. M. Sambruna, R. E. Streitmatter, and D. L. Windt, “The Milli-Arc-Second Structure Imager, MASSIM: A new concept for a high angular resolution X-ray telescope, Space Telescopes and Instrumentation 2008: Ultraviolet to Gamma Ray,” M. J. L. Turner and K. A. Flanagan (Eds.), Proc. of SPIE, Vol.7011, 70110T, 2008.
[3] J. Yan, K. Maekawa, J. Tamaki, and T. Kuriyagawa, “Micro grooving on single-crystal germanium for infrared Fresnel lenses,” J. of Micromechanics and Microengineering, Vol.15, No.10, pp. 1925-1931, 2005.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] G. K. Skinner, “Diffractive/refractive optics for high energy astronomy, I. Gamma-ray phase Fresnel lenses,” Astronomy & Astrophysics, Vol.375, pp. 691-700, 2001.

[2] [2] G. K. Skinner, Z. Arzoumanian, W. C. Cash, N. Gehrels, K. C. Gendreau, P. Gorenstein, J. F. Krizmanic, M. C. Miller, J. D. Phillips, R. D. Reasenberg, C. S., Reynolds, R. M. Sambruna, R. E. Streitmatter, and D. L. Windt, “The Milli-Arc-Second Structure Imager, MASSIM: A new concept for a high angular resolution X-ray telescope, Space Telescopes and Instrumentation 2008: Ultraviolet to Gamma Ray,” M. J. L. Turner and K. A. Flanagan (Eds.), Proc. of SPIE, Vol.7011, 70110T, 2008.

[3] [3] J. Yan, K. Maekawa, J. Tamaki, and T. Kuriyagawa, “Micro grooving on single-crystal germanium for infrared Fresnel lenses,” J. of Micromechanics and Microengineering, Vol.15, No.10, pp. 1925-1931, 2005.

Fabrication of Thin-Film Fresnel Optics by Combining Diamond Turning and Photolithographic Processes

Jiwang Yan*, Kenta Watanabe**, and Yutaro Nakagawa**

Jiwang Yan^*, Kenta Watanabe^, and Yutaro Nakagawa^