Exact solutions of stochastic generalized long–short wave resonance equations with cubic–quintic nonlinearity via the new sub-ODE method

Elsayed M.E. Zayed; Basel M.M. Saad; Mir Sajjad Hashemi; Muhammad Amin S. Murad; Ahmed H. Arnous; Mustafa Bayram

doi:10.15388/namc.2026.31.45367

Articles

Elsayed M.E. Zayed

Zagazig University

Basel M.M. Saad

Arish University

Mir Sajjad Hashemi

University of Bonab

https://orcid.org/0000-0002-5529-3125

Muhammad Amin S. Murad

University of Duhok

Ahmed H. Arnous

Saveetha School of Engineering

Mustafa Bayram

Biruni University

https://orcid.org/0000-0002-2994-7201

Published 2026-02-13

https://doi.org/10.15388/namc.2026.31.45367

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Keywords

embedded solitons
long–short wave
new sub-ODE method
cubic–quintic nonlinearity
multiplicative white noise

How to Cite

Zayed, E.M. (2026) “Exact solutions of stochastic generalized long–short wave resonance equations with cubic–quintic nonlinearity via the new sub-ODE method”, Nonlinear Analysis: Modelling and Control, 31, pp. 1–22. doi:10.15388/namc.2026.31.45367.

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Abstract

We study a stochastic generalized long–short wave resonance system with cubic–quintic nonlinearities, perturbation terms, and multiplicative white noise in the Itô sense. Using a traveling-wave reduction combined with the newly proposed sub-ODE method, we construct explicit families of solitary-wave and elliptic-function solutions, including elevation, depression, and singular branches. The analysis reveals how stochastic effects shrink the existence domains of these solutions, while a Hamiltonian linearization provides Vakhitov–Kolokolov- and Grillakis–Shatah–Strauss-type stability criteria. The results enrich nonlinear wave theory and offer insights relevant to solitary-wave applications in fiber optics and related technologies.

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