Entangled photons, beyond the classical physics understanding, show quantum correlations in some of their degrees of freedom. They find application in quantum computing, quantum key distribution, and super-resolution (i.e., beyond the diffraction limit) microscopy, but they are undistinguishable using conventional image sensors.
A 32×32-pixel time-resolved single-photon image sensor with 44.64μm pitch and 19.48% fill-factor with on-chip row/frame skipping features reaching 800kHz observation rate for quantum physics applications
Gasparini, Leonardo
;Zarghami, Majid;Xu, Hesong;Parmesan, Luca;Garcia, Manuel Moreno;Stoppa, David;Perenzoni, Matteo
2018-01-01
Abstract
Entangled photons, beyond the classical physics understanding, show quantum correlations in some of their degrees of freedom. They find application in quantum computing, quantum key distribution, and super-resolution (i.e., beyond the diffraction limit) microscopy, but they are undistinguishable using conventional image sensors.File in questo prodotto:
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