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    Journals >Optical Instruments >Volume 45 >Issue 3 >Page 74 > Article
    • Optical Instruments
    • Vol. 45, Issue 3, 74 (2023)
    Design of microscope objective for laser scanning of MEMS galvanometer
    Xingyu WANG1, Zhaoqing YANG1, Meng XUE1, and Hanming GUO1、2、*
    Author Affiliations
  • 1School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
  • 2Shanghai Key Laboratory of Modern Optical System, University of Shanghai for Science and Technology, Shanghai 200093, China
    • show less
    DOI: 10.3969/j.issn.1005-5630.2023.003.010 Cite this Article
    Xingyu WANG, Zhaoqing YANG, Meng XUE, Hanming GUO. Design of microscope objective for laser scanning of MEMS galvanometer[J]. Optical Instruments, 2023, 45(3): 74 Copy Citation Text show less
    References

    [1] LI G M, LI H J, DUAN X Y, et al. Visualizing epithelial expression in vertical and horizontal planes with dual axes confocal endomicroscope using compact distal scanner[J]. IEEE Transactions on Medical Imaging, 36, 1482-1490(2017).

    [4] MA J. Advanced MEMS-based technologies and displays[J]. Displays, 37, 2-10(2015).

    [6] TAUSCHER J, DAVIS W O, BROWN D, et al. Evolution of MEMS scanning mirrs f laser projection in compact consumer electronics[C]Proceedings Volume 7594, MOEMS Miniaturized Systems IX. San Francisco, Califnia, United States: SPIE, 2010: 75940A.

    [7] LIU J T C, MANDELLA M J, RA H, et al. Miniature near-infrared dual-axes confocal microscope utilizing a two-dimensional microelectromechanical systems scanner[J]. Optics Letters, 32, 256-258(2007).

    [9] LIANG C, SUNG K B, RICHARDS-KORTUM R R, et al. Design of a high-numerical-aperture miniature microscope objective for an endoscopic fiber confocal reflectance microscope[J]. Applied Optics, 41, 4603-4610(2002).

    [10] FLUSBERG B A, NIMMERJAHN A, COCKER E D, et al. High-speed, miniaturized fluorescence microscopy in freely moving mice[J]. Nature Methods, 5, 935-938(2008).

    [11] BARRETTO R P J, MESSERSCHMIDT B, SCHNITZER M J. In vivo fluorescence imaging with high-resolution microlenses[J]. Nature Methods, 6, 511-512(2009).

    [12] PIYAWATTANAMETHA W, RA H, LOEWKE K E, et al. In vivo near-infrared dual-axis confocal microendoscopy in the human lower gastrointestinal tract[J]. Journal of Biomedical Optics, 17, 021102(2012).

    [13] WU T Y, GMITRO A F, ROUSE A R. An achromatized miniature objective f microendoscopy[C]International Optical Design Conference 2014. OSA Technical Digest Series. Kohala Coast, Hawaii, United States: Optical Society of America, 2014: IW4A. 2.

    [15] ASWATHY R G, YOSHIDA Y, MAEKAWA T, et al. Near-infrared quantum dots for deep tissue imaging[J]. Analytical and Bioanalytical Chemistry, 397, 1417-1435(2010).

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    Xingyu WANG, Zhaoqing YANG, Meng XUE, Hanming GUO. Design of microscope objective for laser scanning of MEMS galvanometer[J]. Optical Instruments, 2023, 45(3): 74
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    Paper Information
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