2022
DOI: 10.48550/arxiv.2204.01733
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Transient motion classification through turbid volumes via parallelized single-photon detection and deep contrastive embedding

Abstract: Fast noninvasive probing of spatially varying decorrelating events, such as cerebral blood flow beneath the human skull, is an essential task in various scientific and clinical settings. One of the primary optical techniques used is diffuse correlation spectroscopy (DCS), whose classical implementation uses a single or few single-photon detectors, resulting in poor spatial localization accuracy and relatively low temporal resolution. Here, we propose a technique termed Classifying Rapid decorrelation Events vi… Show more

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