Large-scale Integration of Multidimensional Quantum Photonics Circuits on Silicon | Zendy

Jianwei Wang | Zendy; Stefano Paesani | Zendy; Yunhong Ding | Zendy; Raffaele Santagati | Zendy; Paul Skrzypczyk | Zendy; Alexia Salavrakos | Zendy; Jordi Tura | Zendy; Remigiusz Augusiak | Zendy; Laura Mančinska | Zendy; Davide Bacco | Zendy; Damien Bonneau | Zendy; Joshua W. Silverstone | Zendy; Qihuang Gong | Zendy; Antonio Acín | Zendy; Karsten Rottwitt | Zendy; Leif Katsuo Oxenløwe | Zendy; Jeremy L. O’Brien | Zendy; Anthony Laing | Zendy; Mark G. Thompson | Zendy

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Large-scale Integration of Multidimensional Quantum Photonics Circuits on Silicon

Author(s) -

Jianwei Wang,

Stefano Paesani,

Yunhong Ding,

Raffaele Santagati,

Paul Skrzypczyk,

Alexia Salavrakos,

Jordi Tura,

Remigiusz Augusiak,

Laura Mančinska,

Davide Bacco,

Damien Bonneau,

Joshua W. Silverstone,

Qihuang Gong,

Antonio Acín,

Karsten Rottwitt,

Leif Katsuo Oxenløwe,

Jeremy L. O’Brien,

Anthony Laing,

Mark G. Thompson

Publication year - 2018

Publication title -

conference on lasers and electro-optics

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1364/cleo_at.2018.jth5b.4

Subject(s) - photonics , quantum entanglement , controllability , silicon photonics , computer science , quantum , quantum imaging , electronic circuit , measure (data warehouse) , scale (ratio) , electronic engineering , quantum network , physics , optoelectronics , engineering , electrical engineering , quantum mechanics , mathematics , database

We report the first large-scale silicon-photonics quantum circuit, integrating more than 500 photonic components, able to generate, manipulate and measure multidimensional entanglement fully on-chip with unprecedented precision, controllability and universality.

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