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%% This BibTeX bibliography file was created using BibDesk.
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%% This BibTeX bibliography file was created using BibDesk.
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%% http://bibdesk.sourceforge.net/
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%% http://bibdesk.sourceforge.net/
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%% Created for Pierre-Francois Loos at 2020-11-23 11:02:43 +0100
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%% Created for Pierre-Francois Loos at 2020-11-23 11:06:10 +0100
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@article{Loos_2019d,
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author = {P. F. Loos and B. Pradines and A. Scemama and J. Toulouse and E. Giner},
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date-added = {2020-11-23 11:06:04 +0100},
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date-modified = {2020-11-23 11:06:04 +0100},
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doi = {10.1021/acs.jpclett.9b01176},
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journal = {J. Phys. Chem. Lett.},
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pages = {2931--2937},
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title = {A Density-Based Basis-Set Correction for Wave Function Theory},
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volume = {10},
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year = {2019},
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Bdsk-Url-1 = {https://doi.org/10.1021/acs.jctc.8b01103}}
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@article{Hodecker_2019,
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@article{Hodecker_2019,
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author = {Hodecker,Manuel and Rehn,Dirk R. and Dreuw,Andreas and H{\"o}fener,Sebastian},
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author = {Hodecker,Manuel and Rehn,Dirk R. and Dreuw,Andreas and H{\"o}fener,Sebastian},
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date-added = {2020-11-21 14:02:13 +0100},
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date-added = {2020-11-21 14:02:13 +0100},
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@ -572,7 +572,7 @@ Amongst the valence transitions in closed-shell compounds, 135 transitions corre
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in molecules having in-between 1 and 3 non-hydrogen atoms, 97 excitations from 4 non-hydrogen atom compounds, 177 from molecules composed by 5 and 6 non-hydrogen atoms, and, finally, 68 excitations are obtained from systems with 7 to 10 non-hydrogen atoms.
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in molecules having in-between 1 and 3 non-hydrogen atoms, 97 excitations from 4 non-hydrogen atom compounds, 177 from molecules composed by 5 and 6 non-hydrogen atoms, and, finally, 68 excitations are obtained from systems with 7 to 10 non-hydrogen atoms.
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In addition, QUEST is composed by 24 open-shell molecules with a single unpaired electron.
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In addition, QUEST is composed by 24 open-shell molecules with a single unpaired electron.
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Amongst these excited states, 485 of them are considered as ``safe'', \ie, chemically-accurate for the considered basis set and geometry.
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Amongst these excited states, 485 of them are considered as ``safe'', \ie, chemically-accurate for the considered basis set and geometry.
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Besides this energetic criterion, we consider as ``safe'' transitions that are either: i) computed with FCI or CCSDTQ, or ii) in which the difference between CC3 and CCSDT excitation energies is below $0.03$ eV with a large $\%T_1$ value.
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Besides this energetic criterion, we consider as ``safe'' transitions that are either: i) computed with FCI or CCSDTQ, or ii) in which the difference between CC3 and CCSDT excitation energies is small (\ie, around $0.03$--$0.04$ eV) with a large $\%T_1$ value.
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\begin{ThreePartTable}
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\begin{ThreePartTable}
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\scriptsize
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\scriptsize
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