Gaussian basis sets for accurate calculations on molecular systems in gas and condensed phases

基准集 存储基集 高斯分布 统计物理学 叠加原理 缩放比例 基函数 线性比例尺 偶极子 物理 密度矩阵 化学 基础(线性代数) 计算化学 密度泛函理论 量子力学 数学 量子 原子轨道的线性组合 几何学 大地测量学 地理
作者
Joost VandeVondele,Jürg Hutter
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:127 (11): 114105-114105 被引量:4526
标识
DOI:10.1063/1.2770708
摘要

We present a library of Gaussian basis sets that has been specifically optimized to perform accurate molecular calculations based on density functional theory. It targets a wide range of chemical environments, including the gas phase, interfaces, and the condensed phase. These generally contracted basis sets, which include diffuse primitives, are obtained minimizing a linear combination of the total energy and the condition number of the overlap matrix for a set of molecules with respect to the exponents and contraction coefficients of the full basis. Typically, for a given accuracy in the total energy, significantly fewer basis functions are needed in this scheme than in the usual split valence scheme, leading to a speedup for systems where the computational cost is dominated by diagonalization. More importantly, binding energies of hydrogen bonded complexes are of similar quality as the ones obtained with augmented basis sets, i.e., have a small (down to 0.2 kcal/mol) basis set superposition error, and the monomers have dipoles within 0.1 D of the basis set limit. However, contrary to typical augmented basis sets, there are no near linear dependencies in the basis, so that the overlap matrix is always well conditioned, also, in the condensed phase. The basis can therefore be used in first principles molecular dynamics simulations and is well suited for linear scaling calculations.
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