Characterization and Optical Compensation of LP01 and LP11 Intra-modal Nonlinearity in Few-Mode Fibers | Zendy

Francesco Da Ros | Zendy; Pawel M. Kaminski | Zendy; Georg Rademacher | Zendy; Benjamin J. Puttnam | Zendy; Ruben S. Lúıs | Zendy; Werner Klaus | Zendy; Hideaki Furukawa | Zendy; Ryu Maruyama | Zendy; Kazuhiko Aikawa | Zendy; Toshio Morioka | Zendy; Leif Katsuo Oxenløwe | Zendy; Naoya Wada | Zendy; Michael Galili | Zendy

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Characterization and Optical Compensation of LP01 and LP11 Intra-modal Nonlinearity in Few-Mode Fibers

Author(s) -

Francesco Da Ros,

Pawel M. Kaminski,

Georg Rademacher,

Benjamin J. Puttnam,

Ruben S. Lúıs,

Werner Klaus,

Hideaki Furukawa,

Ryu Maruyama,

Kazuhiko Aikawa,

Toshio Morioka,

Leif Katsuo Oxenløwe,

Naoya Wada,

Michael Galili

Publication year - 2020

Publication title -

optical fiber communication conference (ofc) 2022

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1364/ofc.2020.th1h.4

Subject(s) - modal , compensation (psychology) , optical fiber , four wave mixing , multi mode optical fiber , optics , characterization (materials science) , nonlinear optics , mixing (physics) , photonic crystal fiber , optical power , materials science , nonlinear system , polarization maintaining optical fiber , phase conjugation , optoelectronics , physics , fiber optic sensor , laser , psychology , quantum mechanics , polymer chemistry , psychoanalysis

Intra-modal four-wave mixing (FWM) and all-optical compensation by optical phase conjugation is investigated over 2-spans of 3-mode fiber with the power of the generated FWM products reduced by 5 to 20 dB in different scenarios.

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