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Imaging and certifying high-dimensional entanglement with a single-photon avalanche diode camera

Bienvenu Ndagano, Hugo Defienne, Ashley Lyons, Ilya Starshynov, Federica Villa, Simone Tisa, Daniele Faccio

2020npj Quantum Information78 citationsDOIOpen Access PDF

Abstract

Abstract Spatial correlations between two photons are the key resource in realising many quantum imaging schemes. Measurement of the bi-photon correlation map is typically performed using single-point scanning detectors or single-photon cameras based on charged coupled device (CCD) technology. However, both approaches are limited in speed due to the slow scanning and the low frame rate of CCD-based cameras, resulting in data acquisition times on the order of many hours. Here, we employ a high frame rate, single-photon avalanche diode (SPAD) camera, to measure the spatial joint probability distribution of a bi-photon state produced by spontaneous parametric down-conversion, with statistics taken over 10 7 frames. Through violation of an Einstein–Podolsky–Rosen criterion by 227 sigmas, we confirm the presence of spatial entanglement between our photon pairs. Furthermore, we certify, in just 140 s, an entanglement dimensionality of 48. Our work demonstrates the potential of SPAD cameras in the rapid characterisation of photonic entanglement, leading the way towards real-time quantum imaging and quantum information processing.

Topics & Concepts

Quantum entanglementPhysicsAvalanche photodiodePhotonSpontaneous parametric down-conversionPhotonicsFrame rateQuantum key distributionPhoton entanglementOpticsQuantum imagingPhoton countingSingle-photon avalanche diodeQuantum sensorParametric statisticsDetectorComputer scienceQuantumQuantum networkQuantum mechanicsStatisticsMathematicsAdvanced Optical Sensing TechnologiesAdvanced Fluorescence Microscopy TechniquesRandom lasers and scattering media
Imaging and certifying high-dimensional entanglement with a single-photon avalanche diode camera | Litcius