English

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 Aτ2Δ2utA\tau^2\frac{\partial\Delta^2 u}{\partial t} 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 (0,T;2)\ell^{\infty}(0,T; \ell^2) 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.

Keywords

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}
}
R2 v1 2026-06-23T10:11:57.149Z