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Optical Multi-Peakon Dynamics in the Fractional Cubic–Quintic Nonlinear Pulse Propagation Model Using a Novel Integral Approach

Ejaz Hussain, Aljethi Reem Abdullah, Khizar Farooq, Usman Younas

2025Fractal and Fractional9 citationsDOIOpen Access PDF

Abstract

This study examines the soliton dynamics in the time-fractional cubic–quintic nonlinear non-paraxial propagation model, applicable to optical signal processing, nonlinear optics, fiber-optic communication, and biomedical laser–tissue interactions. The fractional framework exhibits a wide range of nonlinear effects, such as self-phase modulation, wave mixing, and self-focusing, arising from the balance between cubic and quintic nonlinearities. By employing the Multivariate Generalized Exponential Rational Integral Function (MGERIF) method, we derive an extensive catalog of analytic solutions, multi-peakon structures, lump solitons, kinks, and bright and dark solitary waves, while periodic and singular solutions emerge as special cases. These outcomes are systematically constructed within a single framework and visualized through 2D, 3D, and contour plots under both anomalous and normal dispersion regimes. The analysis also addresses modulation instability (MI), interpreted as a sideband amplification of continuous-wave backgrounds that generates pulse trains and breather-type structures. Our results demonstrate that cubic–quintic contributions substantially affect MI gain spectrum, broadening instability bands and permitting MI beyond the anomalous-dispersion regime. These findings directly connect the obtained solution classes to experimentally observed routes for solitary wave shaping, pulse propagation, and instability and instability-driven waveform formation in optical communication devices, photonic platforms, and laser technologies.

Topics & Concepts

PhysicsNonlinear systemInstabilityWaveformPulse (music)Dispersion (optics)SolitonQuintic functionOrthogonalityMathematical analysisModulation (music)PhotonicsOpticsNonlinear opticsStability (learning theory)Function (biology)Exponential functionSidebandSIGNAL (programming language)Statistical physicsModulational instabilityUltrashort pulseLaserRange (aeronautics)MathematicsWave propagationDynamics (music)Nonlinear Schrödinger equationAmplitudeSymmetry (geometry)Dispersion relationOrbital Angular Momentum in OpticsNonlinear Photonic SystemsOptical Network Technologies