New soliton solutions of nonlinear Kudryashov's equation via Improved tan (φ(μ)/2)-expansion approach in optical fiber

In this article, a newly introduced model nonlinear Kudryashov's equation with anti-cubic nonlinearity is considered for extraction of soliton solutions. This model is utilized to depict the propagation of modulated envelope signals which disseminate with some group velocity. To find a solution, an appropriate traveling wave hypothesis is used to covert the given model into a nonlinear ordinary differential equation. An analytical technique, the Improved tan (phi(mu)/2)-expansion approach has been employed on the governing model to construct many new forms of dark soliton, singular soliton, periodic soliton, dark-singular combo soliton and rational solution. The constraint conditions for the existence of these solitons have also been provided. The physical significance of the proposed equation has been provided with a graphical representation of the constructed solutions.