In this article, we propose general criteria to construct optimal atomic centered basis sets in quantum chemistry. We focus in particular on two criteria, one based on the ground-state one-body density matrix of the system and the other based on the ground-state energy. The performance of these two criteria are then numerically tested and compared on a parametrized eigenvalue problem, which corresponds to a one-dimensional toy version of the ground-state dissociation of a diatomic molecule
Pragmatic modeling of a chemical system requires a method that will produce results of desirable acc...
We show that numerical atomic orbital basis sets that are variationally optimized for specific compo...
A new concept of the molecular structure optimization method based on quantum dynamics computations ...
In this article, we propose general criteria to construct optimal atomic centered basis sets in quan...
We introduce an efficient method to construct optimal and system adaptive basis sets for use in elec...
The accuracy and efficiency of molecular quantum chemical calculations depend critically on the basi...
In the noisy intermediate-scale quantum era, ab initio computation of the electronic structure probl...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/146410/1/jcc25363.pdfhttps://deepblue....
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
Bases of atomic-like functions provide a natural, physically motivated description of electronic sta...
The performance of several families of basis sets for correlated wave function calculations on molec...
In this paper we propose a scheme for choosing basis functions for quantum dynamics calculations. Di...
An atomic basis set composed of only 1s orbitals is introduced, for molecular calculations in the Ha...
The Simplex method was used to define atomic and universal meshes using the integral discretization ...
AbstractThis paper concerns the application of reformulation techniques in mathematical programming ...
Pragmatic modeling of a chemical system requires a method that will produce results of desirable acc...
We show that numerical atomic orbital basis sets that are variationally optimized for specific compo...
A new concept of the molecular structure optimization method based on quantum dynamics computations ...
In this article, we propose general criteria to construct optimal atomic centered basis sets in quan...
We introduce an efficient method to construct optimal and system adaptive basis sets for use in elec...
The accuracy and efficiency of molecular quantum chemical calculations depend critically on the basi...
In the noisy intermediate-scale quantum era, ab initio computation of the electronic structure probl...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/146410/1/jcc25363.pdfhttps://deepblue....
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
Bases of atomic-like functions provide a natural, physically motivated description of electronic sta...
The performance of several families of basis sets for correlated wave function calculations on molec...
In this paper we propose a scheme for choosing basis functions for quantum dynamics calculations. Di...
An atomic basis set composed of only 1s orbitals is introduced, for molecular calculations in the Ha...
The Simplex method was used to define atomic and universal meshes using the integral discretization ...
AbstractThis paper concerns the application of reformulation techniques in mathematical programming ...
Pragmatic modeling of a chemical system requires a method that will produce results of desirable acc...
We show that numerical atomic orbital basis sets that are variationally optimized for specific compo...
A new concept of the molecular structure optimization method based on quantum dynamics computations ...