A stabilized second order exponential time differencing multistep method for thin film growth model without slope selection
Numerical Analysis
2019-07-05 v1 Numerical Analysis
Abstract
In this paper, a stabilized second order in time accurate linear exponential time differencing (ETD) scheme for the no-slope-selection thin film growth model is presented. An artificial stabilizing term is added to the physical model to achieve energy stability, with ETD-based multi-step approximations and Fourier collocation spectral method applied in the time integral and spatial discretization of the evolution equation, respectively. Long time energy stability and detailed error analysis are provided based on the energy method, with a careful estimate of the aliasing error. In addition, numerical experiments are presented to demonstrate the energy decay and convergence rate.
Cite
@article{arxiv.1907.02234,
title = {A stabilized second order exponential time differencing multistep method for thin film growth model without slope selection},
author = {Wenbin Chen and Weijia Li and Zhiwen Luo and Cheng Wang and Xiaoming Wang},
journal= {arXiv preprint arXiv:1907.02234},
year = {2019}
}