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Research Article | Open Access

A remark on the invariant energy quadratization (IEQ) method for preserving the original energy dissipation laws

Zengyan Zhang1Yuezheng Gong2,3Jia Zhao1( )
Department of Mathematics & Statistics, Utah State University, Logan, UT 84322, USA
Department of Mathematics, Nanjing University of Aeronautics and Astronautics, Nanjing 211106, China
Key Laboratory of Mathematical Modelling and High Performance Computing of Air Vehicles (NUAA), MIIT, Nanjing 211106, China
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Abstract

In this letter, we revisit the invariant energy quadratization (IEQ) method and provide a new perspective on its ability to preserve the original energy dissipation laws. The IEQ method has been widely used to design energy stable numerical schemes for phase-field or gradient flow models. Although there are many merits of the IEQ method, one major disadvantage is that the IEQ method usually respects a modified energy law, where the modified energy is expressed in the auxiliary variables. Still, the dissipation laws in terms of the original energy are not guaranteed by the IEQ method. Using the widely-used Cahn-Hilliard equation as an example, we demonstrate that the Runge-Kutta IEQ method indeed can preserve the original energy dissipation laws for certain situations up to arbitrary high-order accuracy. Interested readers are encouraged to extend this idea to more general cases and apply it to other thermodynamically consistent models.

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Electronic Research Archive
Pages 701-714

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Cite this article:
Zhang Z, Gong Y, Zhao J. A remark on the invariant energy quadratization (IEQ) method for preserving the original energy dissipation laws. Electronic Research Archive, 2022, 30(2): 701-714. https://doi.org/10.3934/era.2022037

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Received: 24 November 2021
Revised: 13 January 2022
Accepted: 13 January 2022
Published: 15 February 2022
©2022 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0)