Type-II micro-comb generation in a filter-driven four wave mixing laser [Invited] | Zendy

Hualong Bao | Zendy; Andrew Cooper | Zendy; Sai T. Chu | Zendy; David Moss | Zendy; Roberto Morandotti | Zendy; Brent E. Little | Zendy; Marco Peccianti | Zendy; Alessia Pasquazi | Zendy

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Type-II micro-comb generation in a filter-driven four wave mixing laser [Invited]

Author(s) -

Hualong Bao,

Andrew Cooper,

Sai T. Chu,

David Moss,

Roberto Morandotti,

Brent E. Little,

Marco Peccianti,

Alessia Pasquazi

Publication year - 2018

Publication title -

photonics research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.066

H-Index - 56

ISSN - 2327-9125

DOI - 10.1364/prj.6.000b67

Subject(s) - optics , four wave mixing , mixing (physics) , laser , comb filter , fiber laser , materials science , filter (signal processing) , optical filter , nonlinear optics , optoelectronics , physics , computer science , quantum mechanics , computer vision

We experimentally demonstrate the generation of highly coherent Type-II micro-combs based on a microresonator nested in a fiber cavity loop, known as the filter-driven four wave mixing (FD-FWM) laser scheme. In this system, the frequency spacing of the comb can be adjusted to integer multiples of the free-spectral range (FSR) of the nested micro-resonator by properly tuning the fiber cavity length. Sub-comb lines with single FSR spacing around the primary comb lines can be generated. Such a spectral emission is known as a “Type-II comb.” Our system achieves a fully coherent output. This behavior is verified by numerical simulations. This study represents an important step forward in controlling and manipulating the dynamics of an FD-FWM laser.

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