J. Nonl. Mod. Anal., 3 (2021), pp. 145-165.
Published online: 2021-04
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In this paper, we study Raman soliton model in nanoscale optical waveguides with metamaterials, having polynomial law non-linearity. By using the bifurcation theory method of dynamical systems to the equations of $\phi(\xi)$, under 24 different parameter conditions, we obtain bifurcations of phase portraits and different traveling wave solutions including periodic solutions, homoclinic and heteroclinic solutions for planar dynamical system of the Raman soliton model. Under different parameter conditions, 24 exact explicit parametric representations of the traveling wave solutions are derived. The dynamic behaviors of these traveling wave solutions are meaningful and helpful for us to understand the physical structures of the model.
}, issn = {2562-2862}, doi = {https://doi.org/10.12150/jnma.2021.145}, url = {http://global-sci.org/intro/article_detail/jnma/18783.html} }In this paper, we study Raman soliton model in nanoscale optical waveguides with metamaterials, having polynomial law non-linearity. By using the bifurcation theory method of dynamical systems to the equations of $\phi(\xi)$, under 24 different parameter conditions, we obtain bifurcations of phase portraits and different traveling wave solutions including periodic solutions, homoclinic and heteroclinic solutions for planar dynamical system of the Raman soliton model. Under different parameter conditions, 24 exact explicit parametric representations of the traveling wave solutions are derived. The dynamic behaviors of these traveling wave solutions are meaningful and helpful for us to understand the physical structures of the model.