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Abstract Quantum ghost imaging (QGI) is a method that measures absorption images at extremely low light intensities. Non-degenerate QGI probes a sample at one wavelength while forming an image with correlated photons at a different wavelength. This relieves spectral sensitivity requirements on detectors for near-infrared (NIR) imaging and, as a result, less illumination intensity is required. Using NCam, a novel single-photon detector, we demonstrate non-degenerate QGI with unprecedented sensitivity and contrast, obtaining images of living plants with less than 1% light transmission. Plants experience 3 aW/cm2 of light during imaging, orders of magnitude below starlight. This realization of QGI expands the method to extremely low light bioimaging applications and imaging of light sensitive samples.
Ryan et al. (Tue,) studied this question.
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