电子结构计算的自适应平面波法

Beilei Liu, Huajie Chen, Geneviève Dusson, Jun Fang, Xingyu Gao
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引用次数: 2

摘要

针对电子结构计算中的特征值问题,提出了一种自适应平面波方法。该方法结合了先验收敛率和精确的后验误差估计,为平面波离散化提供了一种有效的能量截止点更新方法,适用于线性和非线性特征值问题。对于线性特征值问题,该方法是误差可控的,即对于给定的精度要求,可以有效地达到解与目标精度匹配的能量截止点。此外,该方法尤其适用于电子结构计算中的非线性特征值问题,因为它可以减少自洽算法的早期迭代成本。我们给出了一些线性和非线性特征值问题的数值实验。特别地,我们用Kohn-Sham密度泛函理论(DFT)和投影增广波(PAW)方法模拟了一些绝缘体和金属系统的电子结构计算,说明了该算法的效率和潜力。
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An Adaptive Planewave Method for Electronic Structure Calculations
We propose an adaptive planewave method for eigenvalue problems in electronic structure calculations. The method combines a priori convergence rates and accurate a posteriori error estimates into an effective way of updating the energy cut-off for planewave discretizations, for both linear and nonlinear eigenvalue problems. The method is error controllable for linear eigenvalue problems in the sense that for a given required accuracy, an energy cut-off for which the solution matches the target accuracy can be reached efficiently. Further, the method is particularly promising for nonlinear eigenvalue problems in electronic structure calculations as it shall reduce the cost of early iterations in self-consistent algorithms. We present some numerical experiments for both linear and nonlinear eigenvalue problems. In particular, we provide electronic structure calculations for some insulator and metallic systems simulated with Kohn–Sham density functional theory (DFT) and the projector augmented wave (PAW) method, illustrating the efficiency and potential of the algorithm.
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