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Spectro-temporal encoded Multiphoton Microscopy

Two-Photon Microscopy has become an invaluable tool for biological and medical research, providing high sensitivity, molecular specificity, inherent three-dimensional sub-cellular resolution and deep tissue penetration. In terms of imaging speeds, however, mechanical scanners still limit the acquisition rates to typically 10-100 frames per second. Here we present a high-speed non-linear microscope achieving kilohertz frame rates by employing pulse-modulated, rapidly wavelength-swept lasers and inertia-free beam steering through angular dispersion. In combination with a high bandwidth, single-photon sensitive detector, we achieve recording of fluorescent lifetimes at unprecedented speeds of 88 million pixels per second. We show diffraction-limited, multi-modal, Two-Photon fluorescence and fluorescence lifetime (FLIM), microscopy and imaging flow cytometry with a digitally reconfigurable laser, imaging system and data acquisition system. These unprecedented speeds should enable high-speed and high-throughput image-assisted cell sorting.