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Abstract
The recently proposed fluorescence emission difference (FED) microscopy has been demonstrated to be capable of breaking the diffraction barrier, which restricts the spatial resolution of far-field fluorescence microscopy. In this paper, we report a novel high-speed FED system that can realize real-time super-resolution imaging. By replacing the conventional nanopositioning stage with a galvo mirror, the temporal resolution of FED is improved to nearly one frame per second, which is 100 times faster than that of best existing FED, while the system maintains a super-high spatial resolution of 150 nm, which is far beyond the diffraction barrier. Therefore, the high-speed FED is suitable for large-area observations while avoiding photobleaching. Detailed theoretical analysis, simulations, and experimental real-time resolution tests on 100 nm nanoparticles and biological cells are reported.
Funding
This work was financially supported by grants from the National Natural Science Foundation of China [grant numbers 61378051, 61205160, 61335003, and 61377013].