Squeezing in lithium niobate waveguides | Zendy

Francesco Lenzini | Zendy; Jiří Janoušek | Zendy; Oliver Thearle | Zendy; Matteo Villa | Zendy; Ben Haylock | Zendy; Sachin Kasture | Zendy; Liang Cui | Zendy; HoangPhuong Phan | Zendy; Dzung Viet Dao | Zendy; Hidehiro Yonezawa | Zendy; P. M. Lam | Zendy; Elanor H. Huntington | Zendy; Mirko Lobino | Zendy

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Squeezing in lithium niobate waveguides

Author(s) -

Francesco Lenzini,

Jiří Janoušek,

Oliver Thearle,

Matteo Villa,

Ben Haylock,

Sachin Kasture,

Liang Cui,

HoangPhuong Phan,

Dzung Viet Dao,

Hidehiro Yonezawa,

P. M. Lam,

Elanor H. Huntington,

Mirko Lobino

Publication year - 2019

Publication title -

griffith research online (griffith university)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1117/12.2539899

Subject(s) - lithium niobate , reconfigurability , photonics , nonlinear optics , nonlinear system , optics , quantum optics , characterization (materials science) , parametric statistics , optoelectronics , materials science , computer science , physics , telecommunications , quantum mechanics , mathematics , statistics

Lithium niobate is widely used in photonics applications because of its large second order nonlinearity and the possibility of integrating nonlinear parametric processes and fast electro-optical reconfigurability. Here we show how these properties can be used for continuous variable quantum optics experiments including the generation, manipulation and characterization and detection of squeezed light.

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