Benchmark Computation of Morphological Complexity in the Functionalized Cahn-Hilliard Gradient Flow
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Publication:6342401
arXiv2006.04784MaRDI QIDQ6342401
Author name not available (Why is that?)
Publication date: 8 June 2020
Abstract: Reductions of the self-consistent mean field theory model of amphiphilic molecules in solvent leads to a singular family of functionalized Cahn-Hilliard (FCH) energies. We modify the energy, removing singularities to stabilize the computation of the gradient flows and develop a series of benchmark problems that emulate the "morphological complexity" observed in experiments. These benchmarks investigate the delicate balance between the rate of arrival of amphiphilic materials onto an interface and a least energy mechanism to accommodate the arriving mass. The result is a trichotomy of responses in which two-dimensional interfaces grow either by a regularized motion against curvature, pearling bifurcations, or curve-splitting directly into networks of interfaces. We evaluate a number of schemes that use second order BDF2-type time stepping coupled with Fourier pseudo-spectral spatial discretization. The BDF2-type schemes are either based on a fully implicit time discretization with a preconditioned steepest descent (PSD) nonlinear solver or upon linearly implicit time discretization based on the standard implicit-explicit (IMEX) and the scalar auxiliary variable (SAV) approaches. We add an exponential time differencing (ETD) scheme for comparison purposes. All schemes use a fixed local truncation error target with adaptive time-stepping to achieve the error target. Each scheme requires proper "preconditioning" to achieve robust performance that can enhance efficiency by several orders of magnitude. The nonlinear PSD scheme achieves the smallest global discretization error at fixed local truncation error, however the IMEX and SAV schemes are the most computationally efficient as measured by the number of FFT calls required to achieve a desired global error.
Has companion code repository: https://github.com/sulinw/FCH_Benchmark_IMEXcode
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