The equation of motion coupled cluster singles and doubles model (EOM-CCSD) is an accurate, black-box correlated electronic structure approach to investigate electronically excited states and electron attachment or detachment processes. It has also served as a basis for developing less computationally expensive approximate models such as partitioned EOM-CCSD (P-EOM-CCSD), the second-order many-body perturbation theory EOM (EOM-MBPT(2)), and their combination (P-EOM-MBPT(2)) [S. Gwaltney et al., Chem. Phys. Lett. 248, 189-198 (1996)]. In this work we outline an implementation of these approximations for four-component based Hamiltonians and investigate their accuracy relative to EOM-CCSD for valence excitations, valence and core ionizations ...
We revisit the connection between equation-of-motion coupled cluster (EOM-CC) and random phase appro...
We discuss the analytic and diagrammatic structure of ionization potential (IP) and electron affinit...
In this thesis, we seek to obtain certain molecular properties for species containing heavy elements...
The equation of motion coupled cluster singles and doubles model (EOM-CCSD) is an accurate, black-bo...
We present a fully analytical implementation of the core-valence separation (CVS) scheme for the equ...
We present an excited-state-specific coupled-cluster approach in which both the molecular orbitals a...
Methods for fast and reliable computation of electronic excitation energies are in short supply, and...
Accurate energetic modeling of large molecular systems is always desired by chemists. For example, l...
Dans cette thèse, nous cherchons à obtenir certaines propriétés moléculaires pour des espèces conten...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
Numerous numerical studies have shown that geminal-based methods are a promising direction to model ...
We investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
We report implementation of the equation of motion coupled-cluster method for electron attachment (E...
© 2015 AIP Publishing LLC. Coupled-cluster (CC) theory has become the de facto standard for high-acc...
We revisit the connection between equation-of-motion coupled cluster (EOM-CC) and random phase appro...
We discuss the analytic and diagrammatic structure of ionization potential (IP) and electron affinit...
In this thesis, we seek to obtain certain molecular properties for species containing heavy elements...
The equation of motion coupled cluster singles and doubles model (EOM-CCSD) is an accurate, black-bo...
We present a fully analytical implementation of the core-valence separation (CVS) scheme for the equ...
We present an excited-state-specific coupled-cluster approach in which both the molecular orbitals a...
Methods for fast and reliable computation of electronic excitation energies are in short supply, and...
Accurate energetic modeling of large molecular systems is always desired by chemists. For example, l...
Dans cette thèse, nous cherchons à obtenir certaines propriétés moléculaires pour des espèces conten...
We present a fully analytical implementation of the core–valence separation (CVS) scheme for the equ...
We report an implementation of the core-valence separation approach to the 4-component relativistic ...
Numerous numerical studies have shown that geminal-based methods are a promising direction to model ...
We investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
We report implementation of the equation of motion coupled-cluster method for electron attachment (E...
© 2015 AIP Publishing LLC. Coupled-cluster (CC) theory has become the de facto standard for high-acc...
We revisit the connection between equation-of-motion coupled cluster (EOM-CC) and random phase appro...
We discuss the analytic and diagrammatic structure of ionization potential (IP) and electron affinit...
In this thesis, we seek to obtain certain molecular properties for species containing heavy elements...