Multidimensional quantum entanglement with large-scale integrated optics

Multidimensional quantum entanglement with large-scale integrated optics

The ability to control multidimensional quantum systems is central to the development of advanced quantum technologies. We demonstrate a multidimensional integrated quantum photonic platform able to generate, control, and analyze high-dimensional entanglement. A programmable bipartite entangled syst...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2018-04, Vol.360 (6386), p.285-291
Hauptverfasser: Wang, Jianwei, Paesani, Stefano, Ding, Yunhong, Santagati, Raffaele, Skrzypczyk, Paul, Salavrakos, Alexia, Tura, Jordi, Augusiak, Remigiusz, Mančinska, Laura, Bacco, Davide, Bonneau, Damien, Silverstone, Joshua W, Gong, Qihuang, Acín, Antonio, Rottwitt, Karsten, Oxenløwe, Leif K, O'Brien, Jeremy L, Laing, Anthony, Thompson, Mark G
Format: Artikel
Sprache:eng
Schlagworte:
Circuits
Controllability
Dimensional analysis
Integrated optics
Optical components
Optics
Photonics
Quantum entanglement
Quantum mechanics
Quantum optics
Silicon
Stability
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Zusammenfassung:The ability to control multidimensional quantum systems is central to the development of advanced quantum technologies. We demonstrate a multidimensional integrated quantum photonic platform able to generate, control, and analyze high-dimensional entanglement. A programmable bipartite entangled system is realized with dimensions up to 15 × 15 on a large-scale silicon photonics quantum circuit. The device integrates more than 550 photonic components on a single chip, including 16 identical photon-pair sources. We verify the high precision, generality, and controllability of our multidimensional technology, and further exploit these abilities to demonstrate previously unexplored quantum applications, such as quantum randomness expansion and self-testing on multidimensional states. Our work provides an experimental platform for the development of multidimensional quantum technologies.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aar7053