Role of frequency dependence of the nonlinearity on a soliton’s evolution in photonic crystal fibers | Zendy

Surajit Bose | Zendy; Oliver Melchert | Zendy; Stephanie Willms | Zendy; И. Бабушкин | Zendy; Uwe Morgner | Zendy; Ayhan Demircan | Zendy; Govind P. Agrawal | Zendy

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Role of frequency dependence of the nonlinearity on a soliton’s evolution in photonic crystal fibers

Author(s) -

Surajit Bose,

Oliver Melchert,

Stephanie Willms,

И. Бабушкин,

Uwe Morgner,

Ayhan Demircan,

Govind P. Agrawal

Publication year - 2021

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.433238

Subject(s) - soliton , photonic crystal fiber , femtosecond , optics , photonic crystal , dispersion (optics) , nonlinear system , supercontinuum , nonlinear optics , wavelength , nonlinear photonic crystal , physics , zero dispersion wavelength , self phase modulation , optical fiber , materials science , laser , dispersion shifted fiber , quantum mechanics , fiber optic sensor

We reveal the crucial role played by the frequency dependence of the nonlinear parameter on the evolution of femtosecond solitons inside photonic crystal fibers (PCFs). We show that the conventional approach based on the self-steepening effect is not appropriate when such fibers have two zero-dispersion wavelengths, and several higher-order nonlinear terms must be included for realistic modeling of the nonlinear phenomena in PCFs. These terms affect not only the Raman-induced wavelength shift of a soliton but also impact its shedding of dispersive radiation.

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