New approach for fractional Schrödinger‐Boussinesq equations with Mittag‐Leffler kernel
D. G. Prakasha, Naveen Sanju Malagi, P. Veeresha
Abstract
In this paper, we find the solution and analyse the behaviour of the obtained results for the nonlinear Schrödinger‐Boussinesq equations using q ‐homotopy analysis transform method ( q ‐HATM) within the frame of fractional order. The considered system describes the interfaces between intermediate long and short waves. The projected fractional operator is proposed with the help of Mittag‐Leffler function to incorporate the nonsingular kernel to the system. The projected algorithm is a modified and accurate method with the help of Laplace transform. The convergence analysis is presented with the help of the fixed point theorem in the form existence and uniqueness. To validate and illustrate the effectiveness of the algorithm considered, we exemplified considered system with respect of arbitrary order. Further, the behaviour of achieved results is captured in contour and 3D plots for distinct arbitrary order. The results show that the projected scheme is very effective, highly methodical and easy to apply for complex and nonlinear systems and help us to captured associated behaviour diverse classes of the phenomenon.