Volume 6 Issue 4
Aug.  2013
Turn off MathJax
Article Contents
WANG Jian-li, LIU Xin-yue. Concept and development of smart optics[J]. Chinese Optics, 2013, 6(4): 437-448. doi: 10.3788/CO.20130604.0437
Citation: WANG Jian-li, LIU Xin-yue. Concept and development of smart optics[J]. Chinese Optics, 2013, 6(4): 437-448. doi: 10.3788/CO.20130604.0437

Concept and development of smart optics

doi: 10.3788/CO.20130604.0437
  • Received Date: 09 Jul 2013
  • Rev Recd Date: 16 Aug 2013
  • Publish Date: 10 Aug 2013
  • Smart optics is an emerging concept developed from conventional optics based on the active optics and adaptive optics. This paper introduces the evolution and development of smart optics and explains and extends its concept and scopes further. Then, it summarizes and comments the developing states and applications of the smart optics, which mainly includes the dynamic optical modulation, dynamic optical sensing, and smart optics systems, involving the telescopes, microscopes, lasers, etc. in the applications of astronomy, military, space, biology, medicine, etc.. Finally, the future outlooks of developments and applications of smart optics are given.

     

  • loading
  • [1] NOETHE L. Active optics in modern large optical telescopes[J]. Progress in Optics,2002,43:1-69. [2] TYSON R K. Principles of Adaptive Optics[M]. 3rd ed. Boca Raton:CRC Press,2011. [3] WHYNDHAM M. Space science meets smart optics[J]. Astronomy & Geophysics,2003,44(3):31-32. [4] WELCH S,GREENAWAY A,DOEL P,et al.. Smart optics in astronomy and space[J]. Astronomy & Geophysics,2003,44(1):26-29. [5] VERHAEGEN M. Smart optics programme [EB/OL].[2013-7-19].http://www.dcsc.tudelft.nl/~mverhaegen/n4ci/sos.htm. [6] 张景旭. 地基大口径望远镜系统结构技术综述[J]. 中国光学,2012,5(4):327-336. ZHANG J X. Overview of structure technologies of large aperture ground-based telescopes[J]. Chinese Optics,2012,5(4):327-336.(in Chinese) [7] MADEC P Y. Overview of deformable mirror technologies for adaptive optics and astronomy[J]. SPIE,2012,8447:844705. [8] 林旭东,薛陈,刘欣悦,等. 自适应光学波前校正器技术发展现状[J]. 中国光学,2012,5(4):337-351. LIN X D,XUE CH,LIU X Y,et al.. Current status and research development of wavefront correctors for adaptive optics[J]. Chinese Optics,2012,5(4):337-351.(in Chinese) [9] 曹召良,李小平,宣丽,等. 液晶自适应光学的研究进展[J]. 中国光学,2012,5(1):12-19. CAO ZH L,LI X P,XUAN L,et al.. Recent progress in liquid crystal adaptive optical technologies[J]. Chinese Optics,2012,5(1):12-19.(in Chinese) [10] WIRTH A,CAVACO J,BRUNO T,et al.. Deformable mirror technologies at AOA Xinetics[J]. SPIE,2013,8780:87800M. [11] PLATT B C,SHACK R. History and principles of Shack-Hartmann wavefront sensing[J]. J. Refractive Surgery,2001,17:S573-S577. [12] PRIMOT J,SOGNO L. Achromatic three-wave(or more) lateral shearing interferometer[J]. J. Optical Society of America A,1995,12(12):2679-2685. [13] PRIMOT J,GUERINEAU N. Extended Hartmann test based on the pseudoguiding property of a Hartmann mask completed by a phase chessboard[J]. Appl. Optics,2000,39(31):5715-5720. [14] VELGHE S,PRIMOT J,GUERINEAU N,et al.. Wave-front reconstruction from multidirectional phase derivatives generated by multilateral shearing interferometers[J]. Opt. Lett.,2005,30(3):245-247. [15] RAGAZZONI R. Pupil plane wavefront sensing with an oscillating prism[J]. J. Mod.n Opt.,1996,43(2):289-293. [16] VERINAUD C. On the nature of the measurements provided by a pyramid wave-front sensor[J]. Opt. Commun.,2004,233(1-3):27-38. [17] CHEW T Y,CLARE R M,LANE R G. A comparison of the Shack-Hartmann and pyramid wavefront sensors[J]. Opt. Commun.,2006,268(2):189-195. [18] ANDERSEN G,REIBEL R. Holographic wavefront sensor[J]. SPIE,2005,5894:58940O. [19] GHEBREMICHAEL F,ANDERSEN G P,GURLEY K S. Holography-based wavefront sensing[J]. Appl. Optics,2008,47(4):A62-A69. [20] ANDERSEN G P,DUSSAN L,GHEBREMICHAEL F,et al.. Holographic wavefront sensor[J]. Opt. Eng.,2009,48(8):085801. [21] GONSALVES R A. Phase retrieval and diversity in adaptive optics[J]. Opt. Eng.,1982,21(5):215829. [22] FIENUP J R. Phase retrieval algorithms:a comparison[J]. Appl. Optics,1982,21(15):2758-2769. [23] PAXMAN R G,SCHULZ T J,FIENUP J R. Joint estimation of object and aberrations by using phase diversity[J]. J. Optical Society of America A,1992,9(7):1072-1085. [24] LIGHTSEY P A,CHANEY D,GALLAGHER B,et al.. Optical performance for the actively controlled James Webb Space Telescope[J]. SPIE,2010,7731:77310B. [25] BOOTH M. Wave front sensor-less adaptive optics:a modal-based approach using sphere packing[J]. Opt. Express,2006,14(4):1339-1352. [26] HUANG L H,RAO C H. Wavefront sensorless adaptive optics:a general modal based approach[J]. Optics Express,2011,19(1):371-379. [27] VORONTSOV M A,CARHART G W,RICKLIN J C. Adaptive phase-distortion correction based on parallel gradient-descent optimization[J]. Opt. Lett.,1997,22(12):907-909. [28] VORONTSOV M A,SIVOKON V P. Stochastic parallel-gradient-descent technique for high-resolution wave-front phase- distortion correction[J]. J. Optical Society of America A,1998,15(10):2745-2758. [29] NIGHTINGALE A M,GORDEYEV S,JUMPER E J,et al.. Regularizing shear layer for adaptive optics control application [C]//Proceedings of the 36th AIAA Plasmadynamics and Lasers Conference,Jun 6-9,2005,Toronto,Canada,2005. [30] TESCH J,GIBSON J S. Optimal and adaptive correction of aero-optical wavefronts in an adaptive optics experiment[J]. SPIE,2011,8165:816502. [31] TESCH J,GIBSON J S,GORDEYEV S,et al.. Identification, prediction and control of aero optical wavefronts in laser beam propagation [C]. Proceedings of the 41st AIAA Plasmadynamics and Lasers Conference,Jun 27-30,2011,Honolulu,USA:AIAA,2011. [32] JUMER E J,ZENK M A,GORDEYEV S,et al.. Airborne aero-optics laboratory[J]. Opt. Eng.,2013,52(7):071408. [33] ALBERT O,SHERMAN L,MOUROU G,et al.. Smart microscope:an adaptive optics learning system for aberration correction in multiphoton confocal microscopy[J]. Opt. Lett.,2000,25(1):52-54. [34] BOOTH M J. Adaptive optics in microscopy[J]. Philosophical Transactions of the Royal Society A,2007,365(1861):2829-2843. [35] DEBARRE D,BOTCHERBY E J,BOOTH M J,et al.. Adaptive optics for structured illumination microscopy[J]. Opt. Express,2008,16(13):9290-9305. [36] DEBARRE D,BOTCHERBY E J,WATANABE T,et al.. Image-based adaptive optics for two-photon microscopy[J]. Opt. Lett.,2009,34(16):2495-2497. [37] ANDILLA J,LEVECQ X. MICAO: first universal all-in-the-box adaptive optics plug in accessory for stand high resolution microscopy[J]. SPIE,2010,7568:75680U. [38] LIANG J,WILLIAMS D R,MILLER D T. Supernormal vision and high-resolution retinal imaging through adaptive optics[J]. J. Optical Society of America A,1997,14(11):2884-2892. [39] AUSTIN R,FERNANDO R-B,WILLIAM J D III,et al.. Adaptive optics scanning laser ophthalmoscopy[J]. Opt. Express,10(9):405-412. [40] ZAWADZKI R J,JONES S M,OLIVER S S,et al.. Adaptive-optics optical coherence tomography for high-resolution and high-speed 3D retinal in vivo imaging[J]. Opt. Express,2005,13(21):8532-8546. [41] VIARD C,NAKASHIMA K,LAMORY B,et al.. Imaging microscopic structure in pathological retinas using a flood-illumination adaptive optics retinal camera[J]. SPIE,2011,7885:788509. [42] SAHIN B,LAMORY B,LEVECQ X,et al.. Adaptive optics with pupil tracking for high resolution retinal imaging[J]. Biomed. Opt. Express,2012,3(2):225-239. [43] KUDRYASHOV A V,SAMARKIN V V. Control of high power CO2 laser beam by adaptive optical element[J]. Opt. Commun.,1995,118(3-4):317-322. [44] ARANCIBIA N O P,CHEN N,GIBSON J S,et al.. Adaptive control of jitter in laser beam pointing and tracking[J]. SPIE,2006,6304:63041G. [45] BAHK S-W,FESS E,KRUSCHWITZ B E,et al.. A high resolution, adaptive beam-shaping system for high power lasers[J]. Opt. Express,2010,18(9):9151-9163. [46] 赵建川,郭汝海,孙涛. 舰载激光武器的发展历程及趋势分析[J]. 中国光学,2013,6(2):151-155. ZHAO J C,GUO R H,SUN T. Development history and trend analysis of shipborne laser weapons[J]. Chinese Optics,2013,6(2):151-155.(in Chinese) [47] LIU Y-T,GIBSON J S. Adaptive control in adaptive optics for directed energy systems[J]. Opt. Eng.,2007,46(4):046601. [48] TYSON R K. Adaptive optics and ground-to-space laser communications[J]. Appl. Optics,1996,35(19):3640-3646. [49] TING C,VOELZ D G,GILES M K. Laser satellite communications with adaptive optics[J]. SPIE,2005,5892:589213. [50] MAJUMDAR A K,RICKLIN J C. Free-space Laser Communications:Principles and Advances[M]. New York:Springer Press,2008. [51] 付强,姜会林,王晓曼,等. 空间激光通信研究现状及发展趋势[J]. 中国光学,2012,5(2):116-125. FU Q,JIANG H L,WANG X M,et al.. Research status and development trend of space laser communication[J]. Chinese Optics,2012,5(2):116-125.(in Chinese) [52] URABE H,HARUYAMA S,SHOGENJI T,et al.. High data rate ground-to-train free-space optical communication system[J]. Opt. Eng.,2012,51(3):031204.
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Article views(2183) PDF downloads(730) Cited by()
    Proportional views

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return