Non-linear soliton solutions of perturbed Chen-Lee-Liu model by φ6 -model expansion approach

This study deals with the perturbed Chen-Lee-Liu governing mode which portrays the propagating phenomena of the optical pulses in the discipline of optical fiber and plasma. The Cauchy problem for this equation cannot be solved by the inverse scattering transform and we use an analytical approach to find traveling wave solutions. One of the generalized techniques phi(6) -model expansion method is exerted to find new solitary wave profiles. It is an effective, and reliable technique that provides generalized solitonic wave profiles including numerous types of soliton families. As a result, solitonic wave patterns attain, like Jacobi elliptic function, periodic, dark, bright, singular, dark-bright, exponential, trigonometric, and rational solitonic structures, etc. The constraint corresponding to each obtained solution provides the guarantee of the existence of the solitary wave solutions. The graphical 2-D, 3-D, and contour visualization of the obtained results is presented to express the pulse propagation behaviors by assuming the appropriate values of the involved parameters. The phi(6) -model expansion method is simple which can be easily applied to other complex non-linear models and get solitary wave structures.

Automated summary

This study applies an analytical approach to investigate the propagating phenomena of optical pulses in optical fiber and plasma. The phi(6)-model expansion method is used to find various types of solitary wave profiles, which are then visualized to illustrate pulse propagation behaviors.