We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equation-of-motion (EOM) coupled-cluster singles and doubles (CCSD) method for calculations of core-level states. Inspired by the CVS idea as originally formulated by Cederbaum, Domcke, and Schirmer, pure valence excitations are excluded from the EOM target space and the frozen-core approximation is imposed on the reference-state amplitudes and multipliers. This yields an efficient, robust, practical, and numerically balanced EOM-CCSD framework for calculations of excitation and ionization energies as well as state and transition properties (e.g., spectral intensities, natural transition, and Dyson orbitals) from both the ground and excited stat...
In this work, a domain-based local pair natural orbital (DLPNO) version of the equation of motion co...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
In this work, a domain-based local pair natural orbital (DLPNO) version of the equation of motion co...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
We present a fully analytical implementation of the core-valence separation (CVS) scheme for the equ...
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 investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
We report on the implementation of Dyson orbitals within the recently introduced frozen-core (fc) co...
In this work, we revisited the idea of using the coupled-cluster (CC) ground state formalism to targ...
Single-reference techniques based on coupled-cluster (CC) theory, in the forms of linear response (L...
We present an edge-specific scheme for calculating near edge x-ray absorption fine structure (NEXAFS...
We present an edge-specific scheme for calculating near edge x-ray absorption fine structure (NEXAFS...
Scalar relativistic equation-of-motion coupled cluster (EOMCC) calculations of core ionization/excit...
While scalar-relativistic core-valence separated equation-of-motion coupled-cluster [1] methods can ...
In this work, a domain-based local pair natural orbital (DLPNO) version of the equation of motion co...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
In this work, a domain-based local pair natural orbital (DLPNO) version of the equation of motion co...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
We present a fully analytical implementation of the core-valence separation (CVS) scheme for the equ...
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 investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
We report on the implementation of Dyson orbitals within the recently introduced frozen-core (fc) co...
In this work, we revisited the idea of using the coupled-cluster (CC) ground state formalism to targ...
Single-reference techniques based on coupled-cluster (CC) theory, in the forms of linear response (L...
We present an edge-specific scheme for calculating near edge x-ray absorption fine structure (NEXAFS...
We present an edge-specific scheme for calculating near edge x-ray absorption fine structure (NEXAFS...
Scalar relativistic equation-of-motion coupled cluster (EOMCC) calculations of core ionization/excit...
While scalar-relativistic core-valence separated equation-of-motion coupled-cluster [1] methods can ...
In this work, a domain-based local pair natural orbital (DLPNO) version of the equation of motion co...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
In this work, a domain-based local pair natural orbital (DLPNO) version of the equation of motion co...