Unconditionally Maximum-Principle-Preserving Parametric Integrating Factor Two-Step Runge-Kutta Schemes for Parabolic Sine-Gordon Equations

IF 1.2 Q2 MATHEMATICS, APPLIED

CSIAM Transactions on Applied Mathematics Pub Date : 2023-06-01 DOI:10.4208/csiam-am.so-2022-0019

Hong Zhang, Xu Qian, Jun Xia null, Songhe Song

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引用次数: 2

Abstract

. We present a systematic two-step approach to derive temporal up to the eighth-order, unconditionally maximum-principle-preserving schemes for a semilin-ear parabolic sine-Gordon equation and its conservative modiﬁcation. By introducing a stabilization term to an explicit integrating factor approach, and designing suitable approximations to the exponential functions, we propose a uniﬁed parametric two-step Runge-Kutta framework to conserve the linear invariant of the original system. To preserve the maximum principle unconditionally, we develop parametric integrating factor two-step Runge-Kutta schemes by enforcing the non-negativeness of the Butcher coefﬁcients and non-decreasing constraint of the abscissas. The order conditions, linear stability, and convergence in the L ∞ -norm are analyzed. Theoretical and numerical results demonstrate that the proposed framework, which is explicit and free of limiters, cut-off post-processing, or exponential effects, offers a concise, and effective approach to develop high-order inequality-preserving and linear-invariant-conserving algorithms.

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抛物型正弦-戈登方程的无条件保极大原理参数积分因子两步龙格-库塔格式

．给出了一种系统的两步法，导出了半线性耳抛物型正弦-戈登方程的八阶时间无条件最大保原理格式及其保守修正。通过在显式积分因子方法中引入稳定项，设计合适的指数函数近似，提出了一种统一的参数两步龙格-库塔框架，以保持原系统的线性不变性。为了无条件地保持极大值原则，我们利用Butcher系数的非负性和横坐标的非递减约束，建立了参数积分因子两步龙格-库塔格式。分析了L∞范数的阶条件、线性稳定性和收敛性。理论和数值结果表明，该框架明确且没有限制、截断后处理或指数效应，为开发高阶不等式保持和线性不变保持算法提供了一种简洁有效的方法。

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来源期刊

CSIAM Transactions on Applied Mathematics

CiteScore

2.70

自引率

0.00%

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