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    Journals >Acta Optica Sinica >Volume 39 >Issue 1 >Page 0126010 > Article
    • Acta Optica Sinica
    • Vol. 39, Issue 1, 0126010 (2019)
    High Spatiotemporal Imaging Based on Optical Field Engineering
    Runfeng Li1、* and Kebin Shi1、2、*
    Author Affiliations
  • 1 State Key Laboratory for Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University, Beijing 100871, China
  • 2 Collaborative Innovation Center of Extreme Optics, Shanxi University, Taiyuan, Shanxi 0 30006, China
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    DOI: 10.3788/AOS201939.0126010 Cite this Article Set citation alerts
    Runfeng Li, Kebin Shi. High Spatiotemporal Imaging Based on Optical Field Engineering[J]. Acta Optica Sinica, 2019, 39(1): 0126010 Copy Citation Text show less
    Principle of STORM, PALM, and FPALM[17]
    Fig. 1. Principle of STORM, PALM, and FPALM[17]
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    Schematic and images of 3D-STORM[19]. (a) Scheme of 3D-STORM structure; (b) 3D-STORM image(z-direction depth is represented by color); (c)-(e) x-y, (d) x-z, (e) y-z cross-sections of the cell outlined in 3D-STORM image
    Fig. 2. Schematic and images of 3D-STORM[19]. (a) Scheme of 3D-STORM structure; (b) 3D-STORM image(z-direction depth is represented by color); (c)-(e) x-y, (d) x-z, (e) y-z cross-sections of the cell outlined in 3D-STORM image
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    Scheme of dual-objective STORM[29]
    Fig. 3. Scheme of dual-objective STORM[29]
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    Principle diagram of time-frequency mapping imaging
    Fig. 4. Principle diagram of time-frequency mapping imaging
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    Images of mouse C2C12 cells[40]. (a) Conventional wide-field image; (b) 3D-SIM image
    Fig. 5. Images of mouse C2C12 cells[40]. (a) Conventional wide-field image; (b) 3D-SIM image
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    Diagram of the principle of SIM[38-39]
    Fig. 6. Diagram of the principle of SIM[38-39]
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    SIM image and (b) SMLM image of HEK293 cells; (c) details corresponding to Fig.7(a); (d) details corresponding to Fig.7(b); (e) imaging effect of combination of SIM and SMLM[51]
    Fig. 7. SIM image and (b) SMLM image of HEK293 cells; (c) details corresponding to Fig.7(a); (d) details corresponding to Fig.7(b); (e) imaging effect of combination of SIM and SMLM[51]
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    Scheme of SPIM[55]
    Fig. 8. Scheme of SPIM[55]
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    Schematic diagram of DSLM[6]
    Fig. 9. Schematic diagram of DSLM[6]
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    Schematic diagram of RSLM[57]
    Fig. 10. Schematic diagram of RSLM[57]
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    Super resolution principle of STED[66]. (a) Molecules transition; (b) position of the donut center (green), under STED illumination (red); (c) for intensities of the STED light (red) equaling or in excess of the threshold intensity Is, molecules are effectively switched “off”
    Fig. 11. Super resolution principle of STED[66]. (a) Molecules transition; (b) position of the donut center (green), under STED illumination (red); (c) for intensities of the STED light (red) equaling or in excess of the threshold intensity Is, molecules are effectively switched “off”
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    STED nanoscopy in living mouse brain and local enlarged image[70]
    Fig. 12. STED nanoscopy in living mouse brain and local enlarged image[70]
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    3D-STED nanoscopy of a living hippocampal brain slice (mouse) [78]
    Fig. 13. 3D-STED nanoscopy of a living hippocampal brain slice (mouse) [78]
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    114000 “donuts” recorded by RESOLFT nanoscopy within two seconds[86]
    Fig. 14. 114000 “donuts” recorded by RESOLFT nanoscopy within two seconds[86]
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    Schematic of SPoD[11]
    Fig. 15. Schematic of SPoD[11]
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    Schematic of SDOM[97]
    Fig. 16. Schematic of SDOM[97]
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    Setup of polar-dSTORM [12]
    Fig. 17. Setup of polar-dSTORM [12]
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    Abstract
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    Runfeng Li, Kebin Shi. High Spatiotemporal Imaging Based on Optical Field Engineering[J]. Acta Optica Sinica, 2019, 39(1): 0126010
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