Fast camera spatial characterization of photonic polarization entanglement

Christopher Ianzano; Peter Svihra; Mael Flament; Andrew Hardy; Guodong Cui; Andrei Nomerotski; Eden Figueroa

doi:10.1038/s41598-020-62020-z

Fast camera spatial characterization of photonic polarization entanglement

Christopher Ianzano
, Peter Svihra
, Mael Flament
, Andrew Hardy
, Guodong Cui
, Andrei Nomerotski
, Eden Figueroa

Physics and Astronomy

Stony Brook University

Stony Brook University
Czech Technical University in Prague
University of Manchester
Brookhaven National Laboratory
University of Toronto

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

Scalable technologies to characterize the performance of quantum devices are crucial to creating large quantum networks and quantum processing units. Chief among the resources of quantum information processing is entanglement. Here we describe the full temporal and spatial characterization of polarization-entangled photons produced by Spontaneous Parametric Down Conversions using an intensified high-speed optical camera, Tpx3Cam. This novel technique allows for precise determination of Bell inequality parameters with minimal technical overhead, and for new characterization methods for the spatial distribution of entangled quantum information. The fast-optical camera could lead to multiple applications in Quantum Information Science, opening new perspectives for the scalability of quantum experiments.

Original language	English
Article number	6181
Journal	Scientific Reports
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41598-020-62020-z
State	Published - Dec 1 2020

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abstract = "Scalable technologies to characterize the performance of quantum devices are crucial to creating large quantum networks and quantum processing units. Chief among the resources of quantum information processing is entanglement. Here we describe the full temporal and spatial characterization of polarization-entangled photons produced by Spontaneous Parametric Down Conversions using an intensified high-speed optical camera, Tpx3Cam. This novel technique allows for precise determination of Bell inequality parameters with minimal technical overhead, and for new characterization methods for the spatial distribution of entangled quantum information. The fast-optical camera could lead to multiple applications in Quantum Information Science, opening new perspectives for the scalability of quantum experiments.",

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AU - Ianzano, Christopher

AU - Svihra, Peter

AU - Flament, Mael

AU - Hardy, Andrew

AU - Cui, Guodong

AU - Nomerotski, Andrei

AU - Figueroa, Eden

PY - 2020/12/1

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AB - Scalable technologies to characterize the performance of quantum devices are crucial to creating large quantum networks and quantum processing units. Chief among the resources of quantum information processing is entanglement. Here we describe the full temporal and spatial characterization of polarization-entangled photons produced by Spontaneous Parametric Down Conversions using an intensified high-speed optical camera, Tpx3Cam. This novel technique allows for precise determination of Bell inequality parameters with minimal technical overhead, and for new characterization methods for the spatial distribution of entangled quantum information. The fast-optical camera could lead to multiple applications in Quantum Information Science, opening new perspectives for the scalability of quantum experiments.

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Fast camera spatial characterization of photonic polarization entanglement

Abstract

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