Theory and Applications

In this paper, we contribute higher order operator-splitting method improved by Zassenhaus product. We apply the contribution to classical and iterative splitting methods. The underlying analysis to obtain higher order operator-splitting methods is presented. While applying the methods to partial differential equations, the benefits of balancing time and spatial scales are discussed to accelerated the methods. The verification of the improved splitting methods are done with numerical examples. An individual handling of each operators with adapted standard higher order time-integrators is discussed. Finally we conclude the higher order operator-splitting methods