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Fabrication of Microlens Array and Its Application:A Review 被引量:16

Fabrication of Microlens Array and Its Application:A Review
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摘要 Microlens arrays are the key component in the next generation of 3D imaging system, for it exhibits some good optical properties such as extremely large field of view angles, low aberration and distortion, high temporal resolution and infinite depth of field. Although many fabrication methods or processes are proposed for manufacturing such precision component, however, those methods still need to be improved. In this review, those fabrication methods are categorized into direct and indirect method and compared in detail. Two main challenges in manufacturing microlens array are identified: how to obtain a microlens array with good uniformity in a large area and how to produce the microlens array on a curved surface? In order to effectively achieve control of the geometry of a microlens,indirect methods involving the use of 3D molds and replication technologies are suggested. Further development of ultraprecision machining technology is needed to reduce the surface fluctuation by considering the dynamics of machine tool in tool path planning. Finally, the challenges and opportunities of manufacturing microlens array in industry and academic research are discussed and several principle conclusions are drawn. Microlens arrays are the key component in the next generation of 3D imaging system, for it exhibits some good optical properties such as extremely large field of view angles, low aberration and distortion, high temporal resolution and infinite depth of field. Although many fabrication methods or processes are proposed for manufacturing such precision component, however, those methods still need to be improved. In this review, those fabrication methods are categorized into direct and indirect method and compared in detail. Two main challenges in manufacturing microlens array are identified: how to obtain a microlens array with good uniformity in a large area and how to produce the microlens array on a curved surface? In order to effectively achieve control of the geometry of a microlens,indirect methods involving the use of 3D molds and replication technologies are suggested. Further development of ultraprecision machining technology is needed to reduce the surface fluctuation by considering the dynamics of machine tool in tool path planning. Finally, the challenges and opportunities of manufacturing microlens array in industry and academic research are discussed and several principle conclusions are drawn.
出处 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2018年第1期10-18,共9页 中国机械工程学报(英文版)
基金 Supported by Shenzhen Science,Technology and Innovation Commission of China(Grant No.JCYJ20150630115257902) the Research Grants Council of the Hong Kong Special Administrative Region of China(Grant No.ITS/339/13FX) Research Committee of The Hong Kong Polytechnic University,China (Grant No.RUK0)
关键词 Microlens array Ultraprecision machining 3D image system MEMS Microlens array Ultraprecision machining 3D image system MEMS
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  • 1[2]Exner S.Die physiologie der facettirten augen von krebsen and insecten[Z].Leipzig-wien Denticke.1891.
  • 2[3]Egelhaaf M.Hausen K,Reiehaardt W.Visual course control in flies relies on.neuronal computation of object and hackground motion[J].TNS,1988.11(8):351-358.
  • 3[5]Land M F.Handbook of Sensory Physiology[M].Berlin-Heidelberg-New York:Springer.1981.
  • 4吴卫国.复眼网膜图像形成机制[J].生理科学,1983,3(2):15-19.
  • 5[7]Jacques D,Peter D.Peter S,et al.Artificial apposition compound eye fabricated by micro-optics technology[J].Applied Optics,2004,43(22):4303-4310.
  • 6[8]Jacques D,Peter S,Andreas B.et al.Artificial compound eye-different concepts and their application to ultra flat image acquisition sensors[J].Proc of SPIE,2004,5346:89-100.
  • 7[9]Jacques D,Peter S,Reinhard V.Theoretical analysis of an artificial superposition compound eye for application in ultra flat digital image acquisition devices[J].Pme of SPIE,2004,5249:408-418.
  • 8[10]Sandem J S,Halford C E.Design and analysis of apposition compound eye optical sensors[J].Opt Eng,1995,34:222-235.
  • 9[11]Land M F.The optics of animal eyes[J].Contemporary Physics,1988,29:435-455.
  • 10[12]Howard J,snyder A W.Transduction as a limitation on compound eye function and design[J].Proceedings of the Royal Society of London,1983,217(1208):287-307.

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