Stable numerical results to a class of time-space fractional partial differential equations via spectral method()

In this paper, we are concerned with finding numerical solutions to the class of time–space fractional partial differential equations: [Formula: see text] under the initial conditions. [Formula: see text] and the mixed boundary conditions. [Formula: see text] where [Formula: see text] is the arbitrary derivative in Caputo sense of order p corresponding to the variable time t. Further, [Formula: see text] is the arbitrary derivative in Caputo sense with order p corresponding to the variable space x. Using shifted Jacobin polynomial basis and via some operational matrices of fractional order integration and differentiation, the considered problem is reduced to solve a system of linear equations. The used method doesn’t need discretization. A test problem is presented in order to validate the method. Moreover, it is shown by some numerical tests that the suggested method is stable with respect to a small perturbation of the source data [Formula: see text]. Further the exact and numerical solutions are compared via 3D graphs which shows that both the solutions coincides very well.