Random Green's Function Method for Large-Scale Electronic Structure Calculation

被引:0
|
作者
汤明发 [1 ]
刘畅 [2 ]
张爱霞 [1 ]
张青云 [1 ]
翟佳羽 [3 ]
袁声军 [4 ,5 ]
柯友启 [1 ]
机构
[1] School of Physical Science and Technology, Shanghai Tech University
[2] Xiaogan Sichuang Information Technology Co., LTD
[3] Institute of Mathematical Sciences, Shanghai Tech University
[4] Key Laboratory of Artificial Micro-and Nano-structures of Ministry of Education, and School of Physics and Technology, Wuhan University
[5] Wuhan Institute of Quantum Technology
来源
Chinese Physics Letters | 2024年 / 05期
基金
中国国家自然科学基金;
关键词
D O I
暂无
中图分类号
O56 [分子物理学、原子物理学];
学科分类号
070203 ; 1406 ;
摘要
We report a linear-scaling random Green’s function(rGF) method for large-scale electronic structure calculation. In this method, the rGF is defined on a set of random states and is efficiently calculated by projecting onto Krylov subspace. With the rGF method, the Fermi–Dirac operator can be obtained directly, avoiding the polynomial expansion to Fermi–Dirac function. To demonstrate the applicability, we implement the rGF method with the density-functional tight-binding method. It is shown that the Krylov subspace can maintain at small size for materials with different gaps at zero temperature, including H2O and Si clusters. We find with a simple deflation technique that the rGF self-consistent calculation of H2O clusters at T = 0 K can reach an error of~ 1 me V per H2O molecule in total energy, compared to deterministic calculations. The rGF method provides an effective stochastic method for large-scale electronic structure simulation.
引用
收藏
页码:28 / 34
页数:7
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