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Dissipative soliton interaction in Kerr resonators with high-order dispersion

A. G. Vladimirov, Mustapha Tlidi, M. Taki

2021Physical review. A/Physical review, A27 citationsDOIOpen Access PDF

Abstract

We consider an optical resonator containing a photonic crystal fiber and driven coherently by an injected beam. This device is described by a generalized Lugiato-Lefever equation with fourth-order dispersion. We use an asymptotic approach to derive interaction equations governing the slow time evolution of the coordinates of two interacting dissipative solitons. We show that Cherenkov radiation induced by positive fourth-order dispersion leads to a strong increase of the interaction force between the solitons. As a consequence, a large number of equidistant soliton bound states in the phase space of the interaction equations can be stabilized. We show that the presence of even small spectral filtering not only dampens the Cherenkov radiation at the soliton tails and reduces the interaction strength, but can also affect the bound state stability.

Topics & Concepts

PhysicsDissipative systemSolitonCherenkov radiationDispersion (optics)ResonatorDissipative solitonBound stateEquidistantQuantum electrodynamicsQuantum mechanicsClassical mechanicsOpticsNonlinear systemMathematicsGeometryDetectorAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsNonlinear Photonic Systems
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