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TuA3 - Label-Free Super Resolution: Novel Approaches III Session Presider: Vasily Astratov
1:30-2:30 Salon I
TuA3.1 -
Super Resolution Microscopy Techniques Based on Plasmonics and Transformation Optics Invited
01:30-02:00
2017-10-03 01:30 2017-10-03 02:00 America/Denver Super Resolution Microscopy Techniques Based on Plasmonics and Transformation Optics Various examples of 2D plasmonic super-resolution imaging techniques will be reviewed. These techniques exhibit spatial resolution of the order of 70 nm. Moreover, utilization of well-known digital image recovery techniques enables further improvement of resolution. However, losses remain an important performance-limiting issue. Hilton Santa Fe Historic Plaza Salon I

    I. Smolyaninov , University of Maryland, College Park, MD, United States, V. Smolyaninova , Towson University, Towson, MD, United States

    Various examples of 2D plasmonic super-resolution imaging techniques will be reviewed. These techniques exhibit spatial resolution of the order of 70 nm. Moreover, utilization of well-known digital image recovery techniques enables further improvement of resolution. However, losses remain an important performance-limiting issue.
TuA3.2 -
Super-resolution Imaging Based on Plasmonic Scattering Invited
02:00-02:30
2017-10-03 02:00 2017-10-03 02:30 America/Denver Super-resolution Imaging Based on Plasmonic Scattering Recently, we have shown saturation, reverse saturation, and all-optical switch of scattering with plasmonic nanoparticles. Combining these novel nonlinear interactions with existing super-resolution geometries, such as SAX and STED microscopies, significant resolution enhancements are demonstrated. Corresponding thermo-plasmonic mechanisms will be discussed in the presentation. Hilton Santa Fe Historic Plaza Salon I

    S. Chu , National Taiwan University, Taipei, Taiwan

    Recently, we have shown saturation, reverse saturation, and all-optical switch of scattering with plasmonic nanoparticles. Combining these novel nonlinear interactions with existing super-resolution geometries, such as SAX and STED microscopies, significant resolution enhancements are demonstrated. Corresponding thermo-plasmonic mechanisms will be discussed in the presentation.