International audienceBenchmarking calculations on excited states of models of phenylalanine protein chains are presented to assess the ability of alternative methods to the standard and most commonly used multiconfigurational wave function-based method, the complete active space self-consistent field (CASSCF), in recovering the non-dynamical correlation for systems that become not affordable by the CASSCF. The exploration of larger active spaces beyond the CASSCF limit is benchmarked through three strategies based on the reduction in the number of determinants: the restricted active space self-consistent field, the generalized active space self-consistent field (GASSCF), and the occupation-restricted multiple active space (ORMAS) schemes. ...
ABSTRACT: We report the calculation of core-ionized states of small organic compounds and macromolec...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
A methodology for the automatic production of quantum mechanical/molecular mechanical (QM/MM) models...
International audienceBenchmarking calculations on excited states of models of phenylalanine protein...
International audienceA benchmark set of relevant geometries of a model protein, the N-acetylphenyla...
International audienceExtensive benchmarking calculations are presented to assess the accuracy of th...
International audienceThe present benchmark calculations testify to the validity of time-dependent d...
The accuracy of three different complete active space (CAS) self-consistent field (CASSCF) methods i...
Author Institution: Departments of Chemistry and The Laser Spectroscopy Facility, The Ohio Stale Uni...
We have calculated state-averaged complete-active-space self-consistent-field (SA-CASSCF), multiconf...
The self-consistent size consistent on a complete active space singly and doubly configuration inter...
In this study, the divide-and-conquer (DC) method is extended to configuration-interaction singles, ...
The recently developed second-order perturbation theory restricted active space (RASPT2) method has ...
We report the calculation of core-ionized states of small organic compounds and macromolecular syste...
ABSTRACT: The applicability and accuracy of the generalized active space self-consistent field, (GAS...
ABSTRACT: We report the calculation of core-ionized states of small organic compounds and macromolec...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
A methodology for the automatic production of quantum mechanical/molecular mechanical (QM/MM) models...
International audienceBenchmarking calculations on excited states of models of phenylalanine protein...
International audienceA benchmark set of relevant geometries of a model protein, the N-acetylphenyla...
International audienceExtensive benchmarking calculations are presented to assess the accuracy of th...
International audienceThe present benchmark calculations testify to the validity of time-dependent d...
The accuracy of three different complete active space (CAS) self-consistent field (CASSCF) methods i...
Author Institution: Departments of Chemistry and The Laser Spectroscopy Facility, The Ohio Stale Uni...
We have calculated state-averaged complete-active-space self-consistent-field (SA-CASSCF), multiconf...
The self-consistent size consistent on a complete active space singly and doubly configuration inter...
In this study, the divide-and-conquer (DC) method is extended to configuration-interaction singles, ...
The recently developed second-order perturbation theory restricted active space (RASPT2) method has ...
We report the calculation of core-ionized states of small organic compounds and macromolecular syste...
ABSTRACT: The applicability and accuracy of the generalized active space self-consistent field, (GAS...
ABSTRACT: We report the calculation of core-ionized states of small organic compounds and macromolec...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
A methodology for the automatic production of quantum mechanical/molecular mechanical (QM/MM) models...