Self-consistent density functional calculations for atomic clusters are considered using a localized basis. A procedure is developed in which the change in the exchange-correlation potential at some stage of the iterative process is approximated as linearly proportional to the change in charge density. The computer time required for an iteration can be reduced substantially. As a test case, the method is applied to the H2 molecule
(Semi-)local density functional approximations (DFAs) are the workhorse electronic structure meth...
We extend to strongly correlated molecular systems the recently introduced basis-set incompleteness ...
The general usefulness of various local and non-local approximations to the exchange-correlation pot...
An efficient linear-scaling approach to the van der Waals density functional in electronic-structure...
A method of describing the nonlocality of the exchange and correlation energy and potential is used ...
We present an atomic-orbital-based approximate scheme for self-interaction correction (SIC) to the l...
We calculate the electronic structure of several atoms and small molecules by direct minimization of...
We present the implementation of linear-response time-dependent density functional theory based on t...
[[abstract]]The density functional theory is derived from a cluster expansion by truncating the high...
An exchange-correlation functional is introduced that goes beyond the conventional gradient approxim...
The Kohn–Sham formulation of density functional theory (DFT) is a widely used quantum mechanical the...
Density functional method is applied for strongly correlated systems. Based on the assumption that t...
The Kohn–Sham formulation of density functional theory (DFT) is a widely used quantum mechanical the...
Transition-metal centers are the active sites for a broad variety of biological and inorganic chemic...
A simple algorithm is presented to derive accurately the exchange-correlation potential in the densi...
(Semi-)local density functional approximations (DFAs) are the workhorse electronic structure meth...
We extend to strongly correlated molecular systems the recently introduced basis-set incompleteness ...
The general usefulness of various local and non-local approximations to the exchange-correlation pot...
An efficient linear-scaling approach to the van der Waals density functional in electronic-structure...
A method of describing the nonlocality of the exchange and correlation energy and potential is used ...
We present an atomic-orbital-based approximate scheme for self-interaction correction (SIC) to the l...
We calculate the electronic structure of several atoms and small molecules by direct minimization of...
We present the implementation of linear-response time-dependent density functional theory based on t...
[[abstract]]The density functional theory is derived from a cluster expansion by truncating the high...
An exchange-correlation functional is introduced that goes beyond the conventional gradient approxim...
The Kohn–Sham formulation of density functional theory (DFT) is a widely used quantum mechanical the...
Density functional method is applied for strongly correlated systems. Based on the assumption that t...
The Kohn–Sham formulation of density functional theory (DFT) is a widely used quantum mechanical the...
Transition-metal centers are the active sites for a broad variety of biological and inorganic chemic...
A simple algorithm is presented to derive accurately the exchange-correlation potential in the densi...
(Semi-)local density functional approximations (DFAs) are the workhorse electronic structure meth...
We extend to strongly correlated molecular systems the recently introduced basis-set incompleteness ...
The general usefulness of various local and non-local approximations to the exchange-correlation pot...