无轨道密度泛函理论的半局部动能泛函性能

Performance of Semilocal Kinetic Energy Functionals for Orbital-Free Density Functional Theory.

作者信息

Constantin Lucian A, Fabiano Eduardo, Della Sala Fabio

机构信息

Center for Biomolecular Nanotechnologies @UNILE , Istituto Italiano di Tecnologia , Via Barsanti , I-73010 Arnesano , Italy.

Institute for Microelectronics and Microsystems (CNR-IMM) , Campus Unisalento, Via Monteroni , 73100 Lecce , Italy.

出版信息

J Chem Theory Comput. 2019 May 14;15(5):3044-3055. doi: 10.1021/acs.jctc.9b00183. Epub 2019 Apr 19.

DOI:10.1021/acs.jctc.9b00183

PMID:30964665

Abstract

We assess several generalized gradient approximations (GGAs) and Laplacian-level meta-GGAs (LL-MGGA) kinetic energy (KE) functionals for orbital-free density functional theory calculations of bulk metals and semiconductors, considering equilibrium distances, bulk moduli, total and kinetic energies, and the electron densities. We also considered the effects of the pseudopotentials, the vacancy formation energies, and the bond lengths of molecular dimers. We found that LL-MGGA KE functionals are distinctively superior to GGA functionals, showing the importance of the Laplacian of the density in the functional construction. We extended the recently developed Pauli-Gaussian second-order and Laplacian (PGSL) functional ( J. Phys. Chem. Lett. 2018 , 9 , 4385 , DOI: 10.1021/acs.jpclett.8b01926 ) including high-order corrections, achieving higher transferability and accuracy than conventional nonlocal functionals based on the Lindhard response function.

摘要

我们评估了几种广义梯度近似（GGA）和拉普拉斯水平的元GGA（LL-MGGA）动能（KE）泛函，用于对块状金属和半导体进行无轨道密度泛函理论计算，考虑了平衡距离、体模量、总能量和动能以及电子密度。我们还考虑了赝势、空位形成能和分子二聚体键长的影响。我们发现LL-MGGA KE泛函明显优于GGA泛函，这表明密度拉普拉斯量在泛函构建中的重要性。我们扩展了最近开发的包含高阶校正的泡利-高斯二阶和拉普拉斯（PGSL）泛函（《物理化学快报》，2018年，9卷，4385页，DOI：10.1021/acs.jpclett.8b01926），与基于林哈德响应函数的传统非局部泛函相比，实现了更高的可转移性和准确性。

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无轨道密度泛函理论的半局部动能泛函性能

Performance of Semilocal Kinetic Energy Functionals for Orbital-Free Density Functional Theory.

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