Fast algorithm for periodic density fitting for Bloch waves
Publication
, Journal Article
Lu, J; Ying, L
December 1, 2015
We propose an efficient algorithm for density fitting of Bloch waves for Hamiltonian operators with periodic potential. The algorithm is based on column selection and random Fourier projection of the orbital functions. The computational cost of the algorithm scales as $\mathcal{O}\bigl(N_{\text{grid}} N^2 + N_{\text{grid}} NK \log (NK)\bigr)$, where $N_{\text{grid}}$ is number of spatial grid points, $K$ is the number of sampling $k$-points in first Brillouin zone, and $N$ is the number of bands under consideration. We validate the algorithm by numerical examples in both two and three dimensions.
Duke Scholars
Publication Date
December 1, 2015
Citation
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Lu, J., & Ying, L. (2015). Fast algorithm for periodic density fitting for Bloch waves.
Lu, Jianfeng, and Lexing Ying. “Fast algorithm for periodic density fitting for Bloch waves,” December 1, 2015.
Lu J, Ying L. Fast algorithm for periodic density fitting for Bloch waves. 2015 Dec 1;
Lu, Jianfeng, and Lexing Ying. Fast algorithm for periodic density fitting for Bloch waves. Dec. 2015.
Lu J, Ying L. Fast algorithm for periodic density fitting for Bloch waves. 2015 Dec 1;
Publication Date
December 1, 2015