An SCF–MO–CNDO study of ionization potentials and orbital energies by the CNDO/BW theory

R. J. Boyd, M. Whitehead
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引用次数: 8

Abstract

Vertical ionization potentials, calculated as the difference between the total energies of the ground states of the ion and its parent molecule, are compared with estimates obtained by use of Koopmans' theorem. For some molecules the differences between the two theoretical values are quite large, while for molecules where the molecular orbitals are constrained by symmetry, the two theoretical values are identical. Differences between calculated adiabatic and vertical ionization potentials are shown to agree with the qualitative features of photoelectron spectra. The best overall fit of theoretical and experimental ionization potentials is obtained with atomic parameters evaluated from Hinze and Jaffe valence-state data and resonance integrals dependent upon valence-state ionization potentials. The theoretical predictions are generally superior to those of CNDO/2 or Hartree–Fock calculations.
用CNDO/BW理论研究SCF-MO-CNDO电离势和轨道能
用离子基态和母分子的总能量之差计算的垂直电离势与用库普曼定理得到的估计进行了比较。对于某些分子,两个理论值之间的差异相当大,而对于分子轨道受对称性约束的分子,两个理论值是相同的。计算出的绝热电离能和垂直电离能的差异与光电子能谱的定性特征一致。从Hinze和Jaffe价态数据和依赖于价态电离势的共振积分中评估原子参数,获得了理论和实验电离势的最佳整体拟合。理论预测通常优于CNDO/2或Hartree-Fock计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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