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Using a combination of broad spectrum illumination, galvanometer-driven mirrors & F-theta lens technology, LEAP™ is able to image cells in brightfield and fluorescent modes. Cells are illuminated either by LED or halogen light sources (excitation & emission filtered in the case of fluorescence) and images are captured in the field-of-regard (FOR) by rapidly rotating mirrors to adjacent fields-of-view (FOV) at frequencies of up to 1 kHz without moving the cell sample. Area-based images are collected from each FOV and are stitched together to form a meta-image over large areas encompassing thousands to millions of cells.
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| Superior Imaging Speed of LEAP™ Optics. LEAP™ employs custom optics which provide a relatively large, in-focus field-of-regard (9 mm on LEAP™ instruments) to enable the imaging of relatively large areas at magnifications up to 20X without requiring sample movement or refocusing. |
Because F-theta technology enables large FOV flat-field imaging with relatively few stage movements and refocus events, LEAP™ offers rapid cell imaging capabilities.
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