Methods for fast and reliable computation of electronic excitation energies are in short supply, and little is known about their systematic performance. This work reports a comparison of several low-scaling approximations to the equation of motion coupled cluster singles and doubles (EOM–CCSD) and linear-response coupled cluster singles and doubles (LR–CCSD) equations with other single reference methods for computing the vertical electronic transition energies of 11 small organic molecules. The methods, including second order equation-of-motion many-body perturbation theory (EOM–MBPT2) and its partitioned variant, are compared to several valence and Rydberg singlet states. We find that the EOM–MBPT2 method was rarely more than a tenth of an...
11 pages, 3 figures, Perspective review (supporting material available)We provide an overview of the...
An efficient local coupled cluster method with single and double excitation operators and perturbati...
Following our previous work focusing on compounds containing up to 3 non-hydrogen atoms [J. Chem. Th...
Methods for fast and reliable computation of electronic excitation energies are in short supply, and...
We report the first investigation of the performance of EOM-CC4 - an approximate equation-of-motion ...
The equation of motion coupled cluster singles and doubles model (EOM-CCSD) is an accurate, black-bo...
76 pages, 1 figure (supporting information available)Following our previous work focussing on compou...
Algorithms for calculating singlet excitation energies in the coupled cluster singles and doubles (C...
<div><p>The similarity transformed equation of motion coupled cluster (STEOM-CC) method is benchmark...
In this work, we quantitatively investigate the difference between the linear response (LR) and the ...
Equation of motion coupled-cluster singles and doubles (EOM-CCSD) is one of the most accurate comput...
We describe our efforts of the past few years to create a large set of more than 500 highly accurate...
We present a comprehensive statistical analysis on the accuracy of various excited state Coupled Clu...
9 pages, 6 figuresInternational audienceBy combining extrapolated selected configuration interaction...
We investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
11 pages, 3 figures, Perspective review (supporting material available)We provide an overview of the...
An efficient local coupled cluster method with single and double excitation operators and perturbati...
Following our previous work focusing on compounds containing up to 3 non-hydrogen atoms [J. Chem. Th...
Methods for fast and reliable computation of electronic excitation energies are in short supply, and...
We report the first investigation of the performance of EOM-CC4 - an approximate equation-of-motion ...
The equation of motion coupled cluster singles and doubles model (EOM-CCSD) is an accurate, black-bo...
76 pages, 1 figure (supporting information available)Following our previous work focussing on compou...
Algorithms for calculating singlet excitation energies in the coupled cluster singles and doubles (C...
<div><p>The similarity transformed equation of motion coupled cluster (STEOM-CC) method is benchmark...
In this work, we quantitatively investigate the difference between the linear response (LR) and the ...
Equation of motion coupled-cluster singles and doubles (EOM-CCSD) is one of the most accurate comput...
We describe our efforts of the past few years to create a large set of more than 500 highly accurate...
We present a comprehensive statistical analysis on the accuracy of various excited state Coupled Clu...
9 pages, 6 figuresInternational audienceBy combining extrapolated selected configuration interaction...
We investigate the use of orbital-optimized references in conjunction with single-reference coupled-...
11 pages, 3 figures, Perspective review (supporting material available)We provide an overview of the...
An efficient local coupled cluster method with single and double excitation operators and perturbati...
Following our previous work focusing on compounds containing up to 3 non-hydrogen atoms [J. Chem. Th...