Continuous wave multi-pass imaging flow cytometry

Abstract

We present a wide-field multi-pass implementation of label-free imaging flow cytometry. Our technique is shown for high-speed flow imaging of ensembles of human red blood cells with up to four passes, demonstrating x4 enhancement in contrast and signal-to-noise. We show that our technique approaches close to the quantum limit of measurement sensitivity, extending the range of optimal imaging to samples in the weakly absorbing regime. This allows for near optimal imaging sensitivity and throughput in a practical scenario of imaging a dynamic sample under limited illumination intensity, surpassing the sensitivity achieved with currently available quantum light sources.

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