Columbus—a program system for advanced multireference theory calculations

Lischka, Hans; Müller, Thomas; Szalay, Péter G.; Shavitt, Isaiah; Pitzer, Russell M.; Shepard, Ron

doi:10.1002/wcms.25

Cited by 189 publications

(198 citation statements)

References 32 publications

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“…(17), then we could get the branching ratios from (19). The problem lies now on how to perform the fitting.…”

Section: Photoionization Of Ne At XCI Levelmentioning

confidence: 99%

“…In contrast, for bound molecular states, electron correlation can be accurately handled by using a variety of quantum chemistry packages (QCP) based on ab initio methods [16][17][18][19][20][21][22]. With proper adjustments, these methods can also provide an accurate description of molecular resonances (hole, shake-up, and multiply excited states), for which electron correlation is even more important [23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

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Photoionization using the xchem approach: Total and partial cross sections of Ne and resonance parameters above the 2s22p5 threshold

et al. 2017

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The XCHEM approach interfaces well established quantum chemistry packages with scattering numerical methods in order to describe single-ionization processes in atoms and molecules. This should allow one to describe electron correlation in the continuum at the same level of accuracy as quantum chemistry methods do for bound states. Here we have applied this method to study multichannel photoionization of Ne in the vicinity of the autoionizing states lying between the 2s 2 2p 5 and 2s2p 6 ionization thresholds. The calculated total photoionization cross sections are in very good agreement with the absolute measurement of Samson et al.[J. Electron Spectrosc. Relat. Phenom. 123, 265 (2002)], and with independent benchmark calculations performed at the same level of theory. From these cross sections, we have extracted resonance positions, total autoionization widths, Fano profile parameters, and correlation parameters for the lowest three autoionizing states. The values of these parameters are in good agreement with those reported in earlier theoretical and experimental work. We have also evaluated β asymmetry parameter and partial photoionization cross sections and, from the latter, partial autoionization widths and Starace parameters for the same resonances, not yet available in the literature. Resonant features in the calculated β parameter are in good agreement with the experimental observations. We have found that the three lowest resonances preferentially decay into the 2p −1 d continuum rather than into the 2p −1 s one [Phys. Rev. A 89, 043415 (2014)], in agreement with previous expectations, and that in the vicinity of the resonances the partial 2p −1 s cross section can be larger than the 2p −1 d one, in contrast with the accepted idea that the latter should amply dominate in the whole energy range. These results show the potential of the XCHEM approach to describe highly correlated process in the ionization continuum of many-electron systems, in particular molecules, for which the XCHEM code has been specifically designed.

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“…(17), then we could get the branching ratios from (19). The problem lies now on how to perform the fitting.…”

Section: Photoionization Of Ne At XCI Levelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Photoionization using the xchem approach: Total and partial cross sections of Ne and resonance parameters above the 2s22p5 threshold

et al. 2017

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“…[52][53][54]59 For CASSCF calculations, the COLUMBUS V5.9 (ref. [60][61][62][63] program package was employed.…”

Section: Theoretical Methodsmentioning

confidence: 99%

“…S12 in the ESI †). Since CC2 is known to poorly treat excited states with doubly excited character 64 and the second excited state of C 5 H 6 is known to have a multiconfigurational character with considerable contribution of a LUMO ' HOMO double excitation, the CC2 results are re-evaluated by recalculating the same interpolated path for C 5 Cl 6 employing SA-4-CASSCF(6,5)/6-31G* [60][61][62][63] (see Fig. S11 and a description of the employed CAS in the ESI †).…”

Section: Theoretical Investigation Of Generation and Character Of Ct mentioning

confidence: 99%

Ultrafast photoinduced dynamics of halogenated cyclopentadienes: observation of geminate charge-transfer complexes in solution

Wolf

Schalk

Radloff

et al. 2013

Phys. Chem. Chem. Phys.

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aThe photoinduced dynamics of the fully halogenated cyclopentadienes C 5 Cl 6 and C 5 Br 6 have been investigated in solution and gas phase by femtosecond time-resolved spectroscopy. Both in solution and in gas phase, homolytic dissociation into a halogen radical and a C 5 X 5 (X = Cl, Br) radical was observed.In liquid phase, solvent-dependent formation of charge transfer complexes between geminate radicals was observed for the first time. These complexes were found to be surprisingly stable and offered the opportunity to follow the dynamics of specific radical pairs. In the case of C 5 Cl 6 in trichloroethanol, a reaction of the chlorine radical with molecules from the solvent cage was observed.

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“…To evaluate this hypothesis, the T 1 and T 2 states are computed at five different levels of theory using various complete active space self-consistent field (CASSCF) and multireference configuration interaction (MR-CI) expansions. [35][36][37][38] First, an active space of 6 electrons in 5 orbitals and the ANO-RCC-VDZP basis set (abbreviated D) 39 are chosen and the maximum excitation level is varied using the CASSCF(6,5), MR-CIS (6,5), and MR-CISD(6,5) levels of theory. Then the active space is increased to the MR-CISD (8,7) level, and the basis set is enlarged to the triple-ζ level (MR-CISD(6,5)/T).…”

mentioning

confidence: 99%

Communication: Unambiguous comparison of many-electron wavefunctions through their overlaps

Plasser

González

2016

The Journal of Chemical Physics

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A simple and powerful method for comparing many-electron wavefunctions constructed at different levels of theory is presented. By using wavefunction overlaps, it is possible to analyze the effects of varying wavefunction models, molecular orbitals, and one-electron basis sets. The computation of wavefunction overlaps eliminates the inherent ambiguity connected to more rudimentary wavefunction analysis protocols, such as visualization of orbitals or comparing selected physical observables. Instead, wavefunction overlaps allow processing the many-electron wavefunctions in their full inherent complexity. The presented method is particularly effective for excited state calculations as it allows for automatic monitoring of changes in the ordering of the excited states. A numerical demonstration based on multireference computations of two test systems, the selenoacrolein molecule and an iridium complex, is presented.

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Columbus—a program system for advanced multireference theory calculations

Cited by 189 publications

References 32 publications

Photoionization using the xchem approach: Total and partial cross sections of Ne and resonance parameters above the 2s22p5 threshold

Photoionization using the xchem approach: Total and partial cross sections of Ne and resonance parameters above the 2s22p5 threshold

Ultrafast photoinduced dynamics of halogenated cyclopentadienes: observation of geminate charge-transfer complexes in solution

Communication: Unambiguous comparison of many-electron wavefunctions through their overlaps

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