An extensive analysis has been carried out of the performance of standard families of basis sets with the hierarchy of coupled cluster methods CC2, CCSD, CC3, and CCSDT in computing selected Oxygen, Carbon, and Nitrogen K-edge (vertical) core excitation and ionization energies within a core-valence separated scheme in the molecules water, ammonia, and carbon monoxide. Complete basis set limits for the excitation energies have been estimated via different basis set extrapolation schemes. The importance of scalar relativistic effects has been established within the spin-free exact two-component theory in its one-electron variant (SFX2C-1e)
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
The performance of gaussian basis sets for density functional theory based calculations of core elec...
Based on an asymmetric Lanczos-chain subspace algorithm, damped coupled cluster linear response func...
An extensive analysis has been carried out of the performance of standard families of basis sets wit...
We investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
We present a fully analytical implementation of the core-valence separation (CVS) scheme for the equ...
Scalar relativistic equation-of-motion coupled cluster (EOMCC) calculations of core ionization/excit...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
A model for calculation of core-ionization energies is developed within the equations-of-motion coup...
We have investigated the relative computational efficacies of the open-shell coupled-cluster (OSCC) ...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
We present a comprehensive statistical analysis on the accuracy of various excited state Coupled Clu...
Algorithms for calculating singlet excitation energies in the coupled cluster singles and doubles (C...
While scalar-relativistic core-valence separated equation-of-motion coupled-cluster [1] methods can ...
A recently proposed coupled cluster evaluation of core-core and core-valence correlation effects wit...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
The performance of gaussian basis sets for density functional theory based calculations of core elec...
Based on an asymmetric Lanczos-chain subspace algorithm, damped coupled cluster linear response func...
An extensive analysis has been carried out of the performance of standard families of basis sets wit...
We investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
We present a fully analytical implementation of the core-valence separation (CVS) scheme for the equ...
Scalar relativistic equation-of-motion coupled cluster (EOMCC) calculations of core ionization/excit...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
A model for calculation of core-ionization energies is developed within the equations-of-motion coup...
We have investigated the relative computational efficacies of the open-shell coupled-cluster (OSCC) ...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
We present a comprehensive statistical analysis on the accuracy of various excited state Coupled Clu...
Algorithms for calculating singlet excitation energies in the coupled cluster singles and doubles (C...
While scalar-relativistic core-valence separated equation-of-motion coupled-cluster [1] methods can ...
A recently proposed coupled cluster evaluation of core-core and core-valence correlation effects wit...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
The performance of gaussian basis sets for density functional theory based calculations of core elec...
Based on an asymmetric Lanczos-chain subspace algorithm, damped coupled cluster linear response func...