@Article{EAJAM-3-4, author = {}, title = {A Time Splitting Space Spectral Element Method for the Cahn-Hilliard Equation}, journal = {East Asian Journal on Applied Mathematics}, year = {2013}, volume = {3}, number = {4}, pages = {333--351}, abstract = {

We propose and analyse a class of fully discrete schemes for the Cahn-Hilliard equation with Neumann boundary conditions. The schemes combine large-time step splitting methods in time and spectral element methods in space. We are particularly interested in analysing a class of methods that split the original Cahn-Hilliard equation into lower order equations. These lower order equations are simpler and less computationally expensive to treat. For the first-order splitting scheme, the stability and convergence properties are investigated based on an energy method. It is proven that both semi-discrete and fully discrete solutions satisfy the energy dissipation and mass conservation properties hidden in the associated continuous problem. A rigorous error estimate, together with numerical confirmation, is provided. Although not yet rigorously proven, higher-order schemes are also constructed and tested by a series of numerical examples. Finally, the proposed schemes are applied to the phase field simulation in a complex domain, and some interesting simulation results are obtained.

}, issn = {2079-7370}, doi = {https://doi.org/10.4208/eajam.150713.181113a}, url = {https://global-sci.com/article/82831/a-time-splitting-space-spectral-element-method-for-the-cahn-hilliard-equation} }