Journal ArticleDOI
Analytic gradients for excited states in the coupled-cluster model CC2 employing the resolution-of-the-identity approximation
Andreas Köhn,Christof Hättig +1 more
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In this paper, the derivation and implementation of excited state gradients are reported for the approximate coupled-cluster singles and doubles model CC2 employing the resolution-of-the-identity approximation for electron repulsion integrals.Abstract:
The derivation and implementation of excited state gradients is reported for the approximate coupled-cluster singles and doubles model CC2 employing the resolution-of-the-identity approximation for electron repulsion integrals. The implementation is profiled for a set of examples with up to 1348 basis functions and exhibits no I/O bottlenecks. A test set of sample molecules is used to assess the performance of the CC2 model for adiabatic excitation energies, excited state structure constants and vibrational frequencies. We find very promising results, especially for adiabatic excitation energies, though the need of a single-reference ground state and a single-replacement dominated excited state puts some limits on the applicability of the method. Its reliability, however, can always be tested on grounds of diagnostic measures. As an example application, we present calculations on the π*←π excited state of trans-azobenzene.read more
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Equation-of-Motion Coupled-Cluster Methods for Open-Shell and Electronically Excited Species: The Hitchhiker's Guide to Fock Space
TL;DR: This review provides a guide to established EOM methods illustrated by examples that demonstrate the types of target states currently accessible by EOM, and touches on some formal aspects of the theory and important current developments.
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Recent advances in wave function-based methods of molecular-property calculations.
TL;DR: Recent Advances in Wave Function-Based Methods of Molecular-Property Calculations Trygve Helgaker, Poul Jørgensen, Kasper Kristensen, Jeppe Olsen, and Kenneth Ruud.
Journal ArticleDOI
The on-the-fly surface-hopping program system Newton-X: Application to ab initio simulation of the nonadiabatic photodynamics of benchmark systems
Mario Barbatti,Giovanni Granucci,Maurizio Persico,Matthias Ruckenbauer,Mario Vazdar,Mirjana Eckert-Maksić,Hans Lischka +6 more
TL;DR: The N ewton -X program package as mentioned in this paper is based on Tully's surface hopping approach and can be used to perform both adiabatic and nonadiabatic simulations.
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Fully Integrated Approach to Compute Vibrationally Resolved Optical Spectra: From Small Molecules to Macrosystems
TL;DR: It is shown that in such a way it is straightforward to combine calculation of Franck-Condon integrals with any electronic computational model.
References
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Journal ArticleDOI
Gaussian basis sets for use in correlated molecular calculations. I. The atoms boron through neon and hydrogen
TL;DR: In this paper, a detailed study of correlation effects in the oxygen atom was conducted, and it was shown that primitive basis sets of primitive Gaussian functions effectively and efficiently describe correlation effects.
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Molecular excitation energies to high-lying bound states from time-dependent density-functional response theory: Characterization and correction of the time-dependent local density approximation ionization threshold
TL;DR: In this paper, the performance of time-dependent density-functional response theory (TD-DFRT) for the calculation of high-lying bound electronic excitation energies of molecules is evaluated.
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RI-MP2: optimized auxiliary basis sets and demonstration of efficiency
TL;DR: In this article, a variational procedure is proposed and applied to optimize auxiliary bases for main group and transition metal atoms which are tested for more than 350 molecules and the RI approximation affects molecular MP2 energies by less than 60 μEh per atom and equilibrium distances by 0.2 pm.
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Gaussian basis sets for use in correlated molecular calculations. IV. Calculation of static electrical response properties
David E. Woon,Thorn H. Dunning +1 more
TL;DR: In this paper, a systematic study of the basis sets required to obtain accurate correlated values for the static dipole (α1), quadrupole(α2), and octopole (β) polarizabilities and the hyperpolarizability (γ) of the rare gas atoms He, Ne, and Ar were presented.
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Toward a systematic molecular orbital theory for excited states
TL;DR: In this article, the activation energy of the A1C02 reaction is 2.5 and 3.9 kcal/mol, respectively, while the experimentally estimated heat of reaction is about 5 kcal/molecular.