Instabilities in a dissipative soliton-similariton laser using a scalar iterative map | Zendy

Fanchao Meng | Zendy; Coraline Lapre | Zendy; Cyril Billet | Zendy; Goëry Genty | Zendy; John M. Dudley | Zendy

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Instabilities in a dissipative soliton-similariton laser using a scalar iterative map

Author(s) -

Fanchao Meng,

Coraline Lapre,

Cyril Billet,

Goëry Genty,

John M. Dudley

Publication year - 2020

Publication title -

optics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.524

H-Index - 272

eISSN - 1071-2763

pISSN - 0146-9592

DOI - 10.1364/ol.386110

Subject(s) - dissipative system , dissipative soliton , physics , soliton , scalar (mathematics) , instability , nonlinear system , laser , classical mechanics , phase (matter) , optics , mechanics , quantum mechanics , mathematics , geometry

Numerical simulations of a dissipative soliton-similariton laser are shown to reproduce a range of instabilities seen in recent experiments. The model uses a scalar nonlinear Schrödinger equation map, and regions of stability and instability are readily identified as a function of gain and saturable absorber parameters. Studying evolution over multiple round trips reveals spectral instabilities linked with soliton molecule internal motion, soliton explosions, chaos, and intermittence. For the case of soliton molecules, the relative phase variation in the spectrum is shown to be due to differences in nonlinear phase evolution between the molecule components over multiple round trips.

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