Improving Soliton Compression Quality with Cascaded Nonlinearities by Engineered Multi-section Quasi-phase-matching Design | Zendy

Xianglong Zeng | Zendy; Hairun Guo | Zendy; Binbin Zhou | Zendy; Morten Bache | Zendy

Open Access

Improving Soliton Compression Quality with Cascaded Nonlinearities by Engineered Multi-section Quasi-phase-matching Design

Author(s) -

Xianglong Zeng,

Hairun Guo,

Binbin Zhou,

Morten Bache

Publication year - 2012

Publication title -

conference on lasers and electro-optics

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1364/cleo_at.2012.jw4a.60

Subject(s) - soliton , pulse compression , phase matching , matching (statistics) , compression (physics) , phase (matter) , pulse (music) , pulse shaping , nonlinear optics , quality (philosophy) , section (typography) , physics , electronic engineering , optics , nonlinear system , computer science , engineering , telecommunications , mathematics , quantum mechanics , laser , radar , statistics , operating system , detector , thermodynamics

In few-cycle soliton generation with large compression factors using cascaded nonlinearities the pulse quality can be improved by engineering quasi-phase-matching structures. The soliton-induced mid-IR optical Cherenkov wave is also enhanced.

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