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QuNIm aims to enhance nonlinear imaging techniques by utilizing quantum entanglement to improve penetration depth and image quality in biological tissues. This advancement will facilitate deeper imaging of neuronal and cardiac activities, significantly impacting neuroscience and medical research.
Many pioneering advances in medicine and biology require observation of the microscopic world with high resolution and without damaging the specimen.
One of the most widespread techniques is multiphoton fluorescence microscopy, which allows full 3D imaging via optical sectioning, i.e., imaging of planes within the sample without the need for physical slicing.
This technique has a major limitation, however: the penetration depth and the signal-to-noise ratio are not sufficient for imaging deep wi…
UNIVERSITA DEGLI STUDI DELL'INSUBRIA
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