Variational projector augmented-wave method: theoretical analysis and preliminary numerical results
Numerical Analysis
2023-01-02 v1 Materials Science
Abstract
In Kohn-Sham electronic structure computations, wave functions have singularities at nuclear positions. Because of these singularities, plane-wave expansions give a poor approximation of the eigenfunctions. In conjunction with the use of pseudo-potentials, the PAW (projector augmented-wave) method circumvents this issue by replacing the original eigenvalue problem by a new one with the same eigenvalues but smoother eigenvectors. Here a slightly different method, called VPAW (variational PAW), is proposed and analyzed. This new method allows for a better convergence with respect to the number of plane-waves. Some numerical tests on an idealized case corroborate this efficiency.
Cite
@article{arxiv.1711.06529,
title = {Variational projector augmented-wave method: theoretical analysis and preliminary numerical results},
author = {Xavier Blanc and Eric Cancès and Mi-Song Dupuy},
journal= {arXiv preprint arXiv:1711.06529},
year = {2023}
}
Comments
41 pages, 6 figures