W. Hodel scite author profile

We have numerically solved an extended version of the nonlinear Schrödinger equation, taking into account higher-order dispersion, the shock (self-steepening) term, and a term describing the Raman self-pumping of an ultrashort pulse. It is shown that the Raman effect is dominant on a femtosecond time scale and leads to the decay of higher-order solitons. For the case of the N = 2 soliton an intense pulse at a distinctly Stokes-shifted frequency is created. This pulse eventually shapes into a fundamental soliton, and its further evolution is governed by the combination of dispersion, self-phase modulation, and the soliton self-frequency shift.

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Optical reflectometry with micrometer resolution for the investigation of integrated optical devices

Beaud¹,

Schütz

Hodel

et al. 1989

IEEE J. Quantum Electron.

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W. Hodel

Ultrashort pulse propagation, pulse breakup, and fundamental soliton formation in a single-mode optical fiber

Submillimeter optical reflectometry

Generation of optical solitons in the wavelength region 1.37–1.49 μm

Decay of femtosecond higher-order solitons in an optical fiber induced by Raman self-pumping

Optical reflectometry with micrometer resolution for the investigation of integrated optical devices

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