The superposition of atomic potentials (SAP) approach has recently been shown to be a simple and efficient way to initialize electronic structure calculations [S. Lehtola, J. Chem. Theory Comput. 15, 1593-1604 (2019)]. Here, we study the differences between effective potentials from fully numerical density functional and optimized effective potential calculations for fixed configurations. We find that the differences are small, overall, and choose exchange-only potentials at the local density approximation level of theory computed on top of Hartree-Fock densities as a good compromise. The differences between potentials arising from different atomic configurations are also found to be small at this level of theory. Furthermore, we discuss th...
An efficient linear-scaling approach to the van der Waals density functional in electronic-structure...
The geometries of a set of small molecules were optimized using eight different exchange-correlation...
Due to the fast increasing capabilities of modern computers it is now feasible to calculate spectra ...
Electronic structure calculations, such as in the Hartree–Fock or Kohn–Sham density functional appro...
Electronic structure calculations, such as in the Hartree-Fock or Kohn-Sham density functional appro...
Simulation of materials at the atomistic level is an important tool in studying microscopic structur...
recently developed finite-element approach for fully numerical atomic structure calculations [S. Leh...
The choice of Gaussian type basis sets for electronic structure calculations of molecules is discuss...
The exchange-only optimized-effective-potential method is implemented with the use of Slater-type ba...
The exchange-only optimized-effective-potential method is implemented with the use of Slater-type ba...
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
Accurate quantum mechanical (QM) modeling of large molecular systems is computationally challenging ...
Density functional theory (DFT) has long been the workhorse of quantum chemists and materials scient...
The computational complexity of ab initio electronic structure methods can be de-creased through the...
Harmonium atoms, i.e. assemblies of electrons trapped in a harmonic potential, are encountered in di...
An efficient linear-scaling approach to the van der Waals density functional in electronic-structure...
The geometries of a set of small molecules were optimized using eight different exchange-correlation...
Due to the fast increasing capabilities of modern computers it is now feasible to calculate spectra ...
Electronic structure calculations, such as in the Hartree–Fock or Kohn–Sham density functional appro...
Electronic structure calculations, such as in the Hartree-Fock or Kohn-Sham density functional appro...
Simulation of materials at the atomistic level is an important tool in studying microscopic structur...
recently developed finite-element approach for fully numerical atomic structure calculations [S. Leh...
The choice of Gaussian type basis sets for electronic structure calculations of molecules is discuss...
The exchange-only optimized-effective-potential method is implemented with the use of Slater-type ba...
The exchange-only optimized-effective-potential method is implemented with the use of Slater-type ba...
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
Accurate quantum mechanical (QM) modeling of large molecular systems is computationally challenging ...
Density functional theory (DFT) has long been the workhorse of quantum chemists and materials scient...
The computational complexity of ab initio electronic structure methods can be de-creased through the...
Harmonium atoms, i.e. assemblies of electrons trapped in a harmonic potential, are encountered in di...
An efficient linear-scaling approach to the van der Waals density functional in electronic-structure...
The geometries of a set of small molecules were optimized using eight different exchange-correlation...
Due to the fast increasing capabilities of modern computers it is now feasible to calculate spectra ...