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A green-light time-stretch confocal microscopy is demonstrated on a fiber-based platform. On the basis of large dispersion provided by a newly designed dispersive fiber for 1-μm wavelength, this platform enables… Click to show full abstract
A green-light time-stretch confocal microscopy is demonstrated on a fiber-based platform. On the basis of large dispersion provided by a newly designed dispersive fiber for 1-μm wavelength, this platform enables high-resolution time-stretch imaging merely at a sampling rate of 1 GS/s, which is almost 80 times slower than similar systems demonstrated previously. Both forward- and epi-detection time-stretch imaging at 6 MHz are realized in the same imaging system at a micron-level resolution. To the best of our knowledge, this is the first time that MHz microscopy at 1 GS/s has been demonstrated in green color that exhibits a μm-resolution. It is believed that this low data-stream time-stretch system can enable ultrafast in-situ imaging in a biofavorable window through practical and affordable hardware configurations.
Journal Title: IEEE Journal of Selected Topics in Quantum Electronics
Year Published: 2018
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