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Properties of quantum light represent a tool for overcoming limits of classical optics. Several experiments have demonstrated this advantage ranging from quantum enhanced imaging to quantum illumination. In this work, experimental demonstration of quantum-enhanced resolution in confocal fluorescence microscopy will be presented. This is achieved by exploiting the non-classical photon statistics of fluorescence emission of single nitrogen-vacancy (NV) color centers in diamond. By developing a general model of super-resolution based on the direct sampling of the kth-order autocorrelation function of the photoluminescence signal, we show the possibility to resolve, in principle, arbitrarily close emitting centers. Finally, possible applications of NV-based fluorescent nanodiamonds in biosensing and future developments will be presented.

Super-resolution from single photon emission: toward biological application / Carabelli, Valentina; Degiovanni, Ivo P.; Brida, Giorgio; Ruo Berchera, Ivano; Franchino, Claudio; Ditalia Tchernij, Sviatoslav; Traina, Paolo; Moreva, Ekaterina; Genovese, Marco; Olivero, Paolo; Picollo, Federico; Guarina, Laura; Forneris, Jacopo. - 10358:(2017), p. 1. (Intervento presentato al convegno Quantum Photonic Devices) [10.1117/12.2275040].

Super-resolution from single photon emission: toward biological application

Degiovanni, Ivo P.;Brida, Giorgio;Ruo Berchera, Ivano;Traina, Paolo;Moreva, Ekaterina;Genovese, Marco;Olivero, Paolo;Forneris, Jacopo
2017

Abstract

Properties of quantum light represent a tool for overcoming limits of classical optics. Several experiments have demonstrated this advantage ranging from quantum enhanced imaging to quantum illumination. In this work, experimental demonstration of quantum-enhanced resolution in confocal fluorescence microscopy will be presented. This is achieved by exploiting the non-classical photon statistics of fluorescence emission of single nitrogen-vacancy (NV) color centers in diamond. By developing a general model of super-resolution based on the direct sampling of the kth-order autocorrelation function of the photoluminescence signal, we show the possibility to resolve, in principle, arbitrarily close emitting centers. Finally, possible applications of NV-based fluorescent nanodiamonds in biosensing and future developments will be presented.
2017
Quantum Photonic Devices
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11696/74198
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