In plane wave based electronic structure calculations the interaction of core and valence electrons is usually represented by atomic effective core potentials. They are constructed in such a way that the shape of the atomic valence orbitals outside a certain core radius is reproduced correctly with respect to the corresponding all-electron calculations. Here we present a method which, in conjunction with density functional perturbation theory, allows to optimize effective core potentials in order to reproduce ground-state molecular properties from arbitrarily accurate reference calculations within standard density functional calculations. We demonstrate the wide range of possible applications in theoretical chemistry of such optimized effec...
In plane wave based electronic structure calcns. the interactions between core and valence electrons...
We introduce an efficient method to construct optimal and system adaptive basis sets for use in elec...
We present a computational methodology based on atom-centered potentials (ACPs) for the efficient an...
In plane wave based electronic structure calcns. the interaction of core and valence electrons is us...
Within the Born-Oppenheimer picture of the electronic Schrödinger equation the external potential du...
Accurate quantum mechanical (QM) modeling of large molecular systems is computationally challenging ...
Recently, we have introduced a scheme for optimizing atom-based nonlocal external potentials within ...
The orbital products of occupied and virtual orbitals are employed as an expansion basis for the cha...
Sampling potential energy surfaces (PES) is pivotal for understanding chemical structure, energetics...
We add an effective atom-centered nonlocal term to the exchange-correlation potential in order to cu...
We propose a new scheme to systematically design optimized connection atoms for arbitrary quantum me...
Density functional theory (DFT) is the most widely-used first-principles theory for analyzing, descri...
The electron density of a molecule or material has recently received major attention as a target qua...
Broadly speaking, the calculation of core spectra such as electron energy loss spectra (EELS) at the...
In this article, we propose general criteria to construct optimal atomic centered basis sets in quan...
In plane wave based electronic structure calcns. the interactions between core and valence electrons...
We introduce an efficient method to construct optimal and system adaptive basis sets for use in elec...
We present a computational methodology based on atom-centered potentials (ACPs) for the efficient an...
In plane wave based electronic structure calcns. the interaction of core and valence electrons is us...
Within the Born-Oppenheimer picture of the electronic Schrödinger equation the external potential du...
Accurate quantum mechanical (QM) modeling of large molecular systems is computationally challenging ...
Recently, we have introduced a scheme for optimizing atom-based nonlocal external potentials within ...
The orbital products of occupied and virtual orbitals are employed as an expansion basis for the cha...
Sampling potential energy surfaces (PES) is pivotal for understanding chemical structure, energetics...
We add an effective atom-centered nonlocal term to the exchange-correlation potential in order to cu...
We propose a new scheme to systematically design optimized connection atoms for arbitrary quantum me...
Density functional theory (DFT) is the most widely-used first-principles theory for analyzing, descri...
The electron density of a molecule or material has recently received major attention as a target qua...
Broadly speaking, the calculation of core spectra such as electron energy loss spectra (EELS) at the...
In this article, we propose general criteria to construct optimal atomic centered basis sets in quan...
In plane wave based electronic structure calcns. the interactions between core and valence electrons...
We introduce an efficient method to construct optimal and system adaptive basis sets for use in elec...
We present a computational methodology based on atom-centered potentials (ACPs) for the efficient an...