Implicit Runge‐Kutta with spectral Galerkin methods for the fractional diffusion equation with spectral fractional Laplacian

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-10-12 DOI:10.1002/num.23074

Yanming Zhang, Yu Li, Yuexin Yu, Wansheng Wang

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Abstract

Abstract An efficient numerical method with high accuracy both in time and in space is proposed for solving ‐dimensional fractional diffusion equation with spectral fractional Laplacian. The main idea is discretizing the time by an ‐stage implicit Runge‐Kutta method and approximating the space by a spectral Galerkin method with Fourier‐like basis functions. In view of the orthogonality, the mass matrix of the spectral Galerkin method is an identity and the stiffness matrix is diagonal, which makes the proposed method is efficient for high‐dimensional problems. The proposed method is showed to be stable and convergent with at least order in time, when the implicit Runge‐Kutta method with classical order () is algebraically stable. As another important contribution of this paper, we derive the spatial error estimate with optimal convergence order which depends on the regularity of the exact solution but not on the fractional parameter . This improves the previous result which depends on the fractional parameter . Numerical experiments verify and complement our theoretical results.

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用谱伽辽金隐式Runge - Kutta方法求解带谱分数阶拉普拉斯的分数阶扩散方程

摘要提出了一种求解具有谱分数阶拉普拉斯算子的分数阶扩散方程的高效、高精度的时间和空间数值方法。主要思想是用一阶隐式Runge - Kutta方法对时间进行离散化，用类傅里叶基函数的谱伽辽金方法对空间进行逼近。鉴于谱伽辽金方法的正交性，该方法的质量矩阵是恒等矩阵，刚度矩阵是对角矩阵，这使得该方法对高维问题是有效的。当经典阶()的隐式Runge‐Kutta方法是代数稳定的时，该方法是稳定且收敛的。作为本文的另一个重要贡献，我们导出了具有最优收敛阶的空间误差估计，该估计依赖于精确解的正则性而不依赖于分数参数。这改进了先前依赖于分数参数的结果。数值实验验证和补充了我们的理论结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464