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The generation of high-intensity optical fields from harmonic-wave photons, interacting via a crossphase modulation with dark solitons both propagating in a Kerr nonlinear medium, is examined. The focus is on… Click to show full abstract
The generation of high-intensity optical fields from harmonic-wave photons, interacting via a crossphase modulation with dark solitons both propagating in a Kerr nonlinear medium, is examined. The focus is on a pump consisting of time-entangled dark-soliton patterns, forming a periodic waveguide along the path of the harmonic-wave probe. It is shown that an increase of the strength of cross-phase modulation respective to the self-phase modulation, favors soliton-mode proliferation in the bound-state spectrum of the trapped harmonic-wave probe. The induced soliton modes, which display the structures of periodic soliton lattices, are not just rich in numbers, they also form a great diversity of population of soliton crystals with a high degree of degeneracy.
Journal Title: Microwave and Optical Technology Letters
Year Published: 2021
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