Unconditionally energy stable high-order BDF schemes for the molecular beam epitaxial model without slope selection

IF 2.2 2区数学 Q1 MATHEMATICS, APPLIED Applied Numerical Mathematics Pub Date : 2024-08-12 DOI:10.1016/j.apnum.2024.08.005

Yuanyuan Kang , Jindi Wang , Yin Yang

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Abstract

In this paper, we consider a class of k-order $(3 \leq k \leq 5)$ backward differentiation formulas (BDF-k) for the molecular beam epitaxial (MBE) model without slope selection. Convex splitting technique along with k-th order Douglas-Dupont regularization term $τ_{n}^{k} {(- Δ)}^{k} {\underline{D}}_{k} ϕ^{n}$ ( ${\underline{D}}_{k}$ represents a truncated BDF-k formula) is added to the numerical schemes to ensure unconditional energy stability. The stabilized convex splitting BDF-k $(3 \leq k \leq 5)$ methods are unique solvable unconditionally. Then the modified discrete energy dissipation laws are established by using the discrete gradient structures of BDF-k $(3 \leq k \leq 5)$ formulas and processing k-th order explicit extrapolations of the concave term. In addition, based on the discrete energy technique, the $L^{2}$ norm stability and convergence of the stabilized BDF-k $(3 \leq k \leq 5)$ schemes are obtained by means of the discrete orthogonal convolution kernels and the convolution type Young inequalities. Numerical results are carried out to verify our theory and illustrate the validity of the proposed schemes.

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无斜率选择的分子束外延模型的无条件能量稳定高阶 BDF 方案

本文针对无斜率选择的分子束外延（MBE）模型，研究了一类 k 阶（3≤k≤5）反向微分公式（BDF-k）。为确保无条件的能量稳定性，在数值方案中加入了凸分裂技术和 k 阶道格拉斯-杜邦正则化项 τnk(-Δ)kD_kjn （D_k 表示截断的 BDF-k 公式）。稳定的凸分裂 BDF-k (3≤k≤5) 方法是无条件唯一可解的。然后，利用 BDF-k (3≤k≤5) 公式的离散梯度结构并处理凹项的 k 阶显式外推，建立了修正的离散耗能定律。此外，基于离散能量技术，通过离散正交卷积核和卷积型扬氏不等式，获得了稳定 BDF-k (3≤k≤5) 方案的 L2 准则稳定性和收敛性。数值结果验证了我们的理论，并说明了所提方案的有效性。

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来源期刊

Applied Numerical Mathematics 数学-应用数学

CiteScore

5.60

自引率

7.10%

发文量

225

审稿时长

7.2 months

期刊介绍： The purpose of the journal is to provide a forum for the publication of high quality research and tutorial papers in computational mathematics. In addition to the traditional issues and problems in numerical analysis, the journal also publishes papers describing relevant applications in such fields as physics, fluid dynamics, engineering and other branches of applied science with a computational mathematics component. The journal strives to be flexible in the type of papers it publishes and their format. Equally desirable are: (i) Full papers, which should be complete and relatively self-contained original contributions with an introduction that can be understood by the broad computational mathematics community. Both rigorous and heuristic styles are acceptable. Of particular interest are papers about new areas of research, in which other than strictly mathematical arguments may be important in establishing a basis for further developments. (ii) Tutorial review papers, covering some of the important issues in Numerical Mathematics, Scientific Computing and their Applications. The journal will occasionally publish contributions which are larger than the usual format for regular papers. (iii) Short notes, which present specific new results and techniques in a brief communication.