Abstract
•The dynamics of a new chaotic system is considered.•To provide new possibilities for capturing more chaotic behaviors, the model is generalized by implementing fractal-fractional differential operator of Mittag-Leffler type kernel.•It is also theoretically proved that the present model will have at least one solution and it will also have a unique solution.•Numerical scheme is implemented through MATLAB software for the graphical solution.
Fractal-fractional operators have been crucial in detecting some hidden chaotic phenomena that could not be exposed using classical or simple fractional differential and integral operators. To provide new possibilities for capturing more chaotic behaviors, the present study is carried out for the dynamics of a new chaotic system by implementing fractal-fractional differential operator of Mittag-Leffler type kernel. It is also theoretically proved that the present model will have at least one solution and it will also have a unique solution. Numerical scheme is implemented through MATLAB software for the graphical solution of the proposed problem. Some results are found and portrayed through different graphs.