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We introduce an anamorphic detection paradigm to optimize spatial and spectral resolution in adaptive optics line-scan OCT, wherein an improved light collection efficiency and signal roll-off compared to traditional methods was demonstrated. The benefits for in vivo imaging were exemplified by retrieving nanometer-scale light-induced optical path length dynamics at high speed in individual cones. The high speed, sensitivity and cellular-scale resolution of the resulting adaptive optics line-scan OCT instrument offers a robust and sensitive biomarker for retinal function in health and disease.
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