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%% This BibTeX bibliography file was created using BibDesk.
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@ -1003,7 +886,6 @@
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@ -1513,7 +1391,6 @@
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@ -1541,7 +1418,6 @@
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@ -1657,7 +1528,6 @@
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@ -1684,7 +1553,6 @@
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title = {How Method-Dependent Are Calculated Differences Between Vertical, Adiabatic and 0-0 Excitation Energies?},
|
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@ -2046,7 +1904,6 @@
|
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author = {Yuan Yao and Emmanuel Giner and Junhao Li and Julien Toulouse and C. J. Umrigar},
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author = {Yuan Yao and Emmanuel Giner and Junhao Li and Julien Toulouse and C. J. Umrigar},
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eprint = {2004.10059},
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|
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|
primaryclass = {physics.chem-ph},
|
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title = {Almost exact energies for the Gaussian-2 set with the semistochastic heat-bath configuration interaction method},
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title = {Almost exact energies for the Gaussian-2 set with the semistochastic heat-bath configuration interaction method},
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year = {2020}}
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year = {2020}}
|
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@ -2056,7 +1913,6 @@
|
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author = {Pierre-Fran{\c c}ois Loos and Yann Damour and Anthony Scemama},
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author = {Pierre-Fran{\c c}ois Loos and Yann Damour and Anthony Scemama},
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eprint = {2008.11145},
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|
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|
primaryclass = {physics.chem-ph},
|
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title = {The performance of CIPSI on the ground state electronic energy of benzene},
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title = {The performance of CIPSI on the ground state electronic energy of benzene},
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year = {2020}}
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@ -2187,7 +2043,6 @@
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author = {Norm M. Tubman and Daniel S. Levine and Diptarka Hait and Martin Head-Gordon and K. Birgitta Whaley},
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author = {Norm M. Tubman and Daniel S. Levine and Diptarka Hait and Martin Head-Gordon and K. Birgitta Whaley},
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date-modified = {2020-09-03 21:52:47 +0200},
|
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eprint = {1808.02049},
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title = {An efficient deterministic perturbation theory for selected configuration interaction methods},
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title = {An efficient deterministic perturbation theory for selected configuration interaction methods},
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@ -2334,7 +2189,6 @@
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title = {Is ADC(3) as Accurate as CC3 for Valence and Rydberg Transition Energies?},
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@ -2347,7 +2201,6 @@
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@ -2360,7 +2213,6 @@
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@ -2468,7 +2320,6 @@
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title = {High-accuracy extrapolated ab initio thermochemistry. II. Minor improvements to the protocol and a vital simplification},
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@ -2494,7 +2344,6 @@
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@ -2522,7 +2371,6 @@
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@ -2535,7 +2383,6 @@
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@ -2548,7 +2395,6 @@
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@ -2561,7 +2407,6 @@
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@ -2791,7 +2636,6 @@
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@ -2820,7 +2664,6 @@
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@ -3322,7 +3165,6 @@
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@ -3385,7 +3227,6 @@
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@ -3442,7 +3283,6 @@
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@ -3551,7 +3391,6 @@
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@ -3564,7 +3403,6 @@
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@ -3615,7 +3453,6 @@
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@ -3628,7 +3465,6 @@
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@ -3641,7 +3477,6 @@
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@ -3834,7 +3669,6 @@
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@ -4462,7 +4296,6 @@
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|
pages = {151103},
|
||||||
title = {Communication: Orbital instabilities and triplet states from time-dependent density functional theory and long-range corrected functionals},
|
title = {Communication: Orbital instabilities and triplet states from time-dependent density functional theory and long-range corrected functionals},
|
||||||
@ -4475,7 +4308,6 @@
|
|||||||
date-added = {2020-05-18 21:40:28 +0200},
|
date-added = {2020-05-18 21:40:28 +0200},
|
||||||
date-modified = {2020-05-18 21:40:28 +0200},
|
date-modified = {2020-05-18 21:40:28 +0200},
|
||||||
doi = {10.1063/1.434318},
|
doi = {10.1063/1.434318},
|
||||||
eprint = {https://doi.org/10.1063/1.434318},
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|
||||||
journal = {J. Chem. Phys.},
|
journal = {J. Chem. Phys.},
|
||||||
pages = {3045-3050},
|
pages = {3045-3050},
|
||||||
title = {Self‐consistent molecular orbital methods. XVIII. Constraints and stability in Hartree--Fock theory},
|
title = {Self‐consistent molecular orbital methods. XVIII. Constraints and stability in Hartree--Fock theory},
|
||||||
@ -4518,7 +4350,6 @@
|
|||||||
date-added = {2020-05-18 21:40:28 +0200},
|
date-added = {2020-05-18 21:40:28 +0200},
|
||||||
date-modified = {2020-05-18 21:40:28 +0200},
|
date-modified = {2020-05-18 21:40:28 +0200},
|
||||||
doi = {10.1021/jz401069f},
|
doi = {10.1021/jz401069f},
|
||||||
eprint = {https://doi.org/10.1021/jz401069f},
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|
||||||
journal = {J. Phys. Chem. Lett.},
|
journal = {J. Phys. Chem. Lett.},
|
||||||
pages = {2197-2201},
|
pages = {2197-2201},
|
||||||
title = {Low-Energy Charge-Transfer Excitons in Organic Solids from First-Principles: The Case of Pentacene},
|
title = {Low-Energy Charge-Transfer Excitons in Organic Solids from First-Principles: The Case of Pentacene},
|
||||||
@ -4573,7 +4404,6 @@
|
|||||||
date-added = {2020-05-18 21:40:28 +0200},
|
date-added = {2020-05-18 21:40:28 +0200},
|
||||||
date-modified = {2020-05-18 21:40:28 +0200},
|
date-modified = {2020-05-18 21:40:28 +0200},
|
||||||
doi = {10.1021/ja8087482},
|
doi = {10.1021/ja8087482},
|
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eprint = {https://doi.org/10.1021/ja8087482},
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|
||||||
journal = {J. Am. Chem. Soc.},
|
journal = {J. Am. Chem. Soc.},
|
||||||
note = {PMID: 19239266},
|
note = {PMID: 19239266},
|
||||||
pages = {2818-2820},
|
pages = {2818-2820},
|
||||||
@ -4752,7 +4582,6 @@
|
|||||||
date-added = {2020-05-18 21:40:28 +0200},
|
date-added = {2020-05-18 21:40:28 +0200},
|
||||||
date-modified = {2020-05-18 21:40:28 +0200},
|
date-modified = {2020-05-18 21:40:28 +0200},
|
||||||
doi = {10.1021/acs.jpclett.7b02740},
|
doi = {10.1021/acs.jpclett.7b02740},
|
||||||
eprint = {https://doi.org/10.1021/acs.jpclett.7b02740},
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|
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journal = {J. Phys. Chem. Lett.},
|
journal = {J. Phys. Chem. Lett.},
|
||||||
note = {PMID: 29280376},
|
note = {PMID: 29280376},
|
||||||
pages = {306-312},
|
pages = {306-312},
|
||||||
@ -4808,7 +4637,6 @@
|
|||||||
date-added = {2020-05-18 21:40:28 +0200},
|
date-added = {2020-05-18 21:40:28 +0200},
|
||||||
date-modified = {2020-05-18 21:40:28 +0200},
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date-modified = {2020-05-18 21:40:28 +0200},
|
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doi = {10.1063/1.4966920},
|
doi = {10.1063/1.4966920},
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eprint = {https://doi.org/10.1063/1.4966920},
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journal = {J. Chem. Phys.},
|
journal = {J. Chem. Phys.},
|
||||||
pages = {174305},
|
pages = {174305},
|
||||||
title = {GW-BSE approach on S1 vertical transition energy of large charge transfer compounds: A performance assessment},
|
title = {GW-BSE approach on S1 vertical transition energy of large charge transfer compounds: A performance assessment},
|
||||||
@ -4859,7 +4687,6 @@
|
|||||||
date-added = {2020-02-08 14:50:26 +0100},
|
date-added = {2020-02-08 14:50:26 +0100},
|
||||||
date-modified = {2020-02-08 14:50:26 +0100},
|
date-modified = {2020-02-08 14:50:26 +0100},
|
||||||
doi = {10.1021/acs.jctc.7b00174},
|
doi = {10.1021/acs.jctc.7b00174},
|
||||||
eprint = {https://doi.org/10.1021/acs.jctc.7b00174},
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|
||||||
journal = {J. Chem. Theory Comput.},
|
journal = {J. Chem. Theory Comput.},
|
||||||
note = {PMID: 28489372},
|
note = {PMID: 28489372},
|
||||||
pages = {3185--3197},
|
pages = {3185--3197},
|
||||||
@ -5352,7 +5179,6 @@
|
|||||||
date-added = {2020-01-01 21:36:51 +0100},
|
date-added = {2020-01-01 21:36:51 +0100},
|
||||||
date-modified = {2020-01-01 21:36:51 +0100},
|
date-modified = {2020-01-01 21:36:51 +0100},
|
||||||
doi = {10.1021/jo051897r},
|
doi = {10.1021/jo051897r},
|
||||||
eprint = {http://dx.doi.org/10.1021/jo051897r},
|
|
||||||
journal = {J. Org. Chem.},
|
journal = {J. Org. Chem.},
|
||||||
pages = {983--991},
|
pages = {983--991},
|
||||||
title = {CASPT2 Study of the Decomposition of Nitrosomethane and Its Tautomerization Reactions in the Ground and Low-Lying Excited States},
|
title = {CASPT2 Study of the Decomposition of Nitrosomethane and Its Tautomerization Reactions in the Ground and Low-Lying Excited States},
|
||||||
@ -5365,7 +5191,6 @@
|
|||||||
date-added = {2020-01-01 21:36:51 +0100},
|
date-added = {2020-01-01 21:36:51 +0100},
|
||||||
date-modified = {2020-01-01 21:36:51 +0100},
|
date-modified = {2020-01-01 21:36:51 +0100},
|
||||||
doi = {10.1021/bk-2016-1234.ch002},
|
doi = {10.1021/bk-2016-1234.ch002},
|
||||||
eprint = {arXiv:1607.06742},
|
|
||||||
title = {Using CIPSI nodes in diffusion Monte Carlo},
|
title = {Using CIPSI nodes in diffusion Monte Carlo},
|
||||||
year = {2016},
|
year = {2016},
|
||||||
Bdsk-Url-1 = {https://dx.doi.org/10.1021/bk-2016-1234.ch002}}
|
Bdsk-Url-1 = {https://dx.doi.org/10.1021/bk-2016-1234.ch002}}
|
||||||
@ -7002,7 +6827,6 @@
|
|||||||
date-added = {2020-01-01 21:36:51 +0100},
|
date-added = {2020-01-01 21:36:51 +0100},
|
||||||
date-modified = {2020-01-01 21:36:52 +0100},
|
date-modified = {2020-01-01 21:36:52 +0100},
|
||||||
doi = {10.1063/1.4894482},
|
doi = {10.1063/1.4894482},
|
||||||
eprint = {http://dx.doi.org/10.1063/1.4894482},
|
|
||||||
journal = {J. Chem. Phys.},
|
journal = {J. Chem. Phys.},
|
||||||
pages = {104302},
|
pages = {104302},
|
||||||
title = {A Systematic Approach to Vertically Excited States of Ethylene Using Configuration Interaction and Coupled Cluster Techniques},
|
title = {A Systematic Approach to Vertically Excited States of Ethylene Using Configuration Interaction and Coupled Cluster Techniques},
|
||||||
@ -12655,7 +12479,6 @@
|
|||||||
date-added = {2019-10-24 20:19:01 +0200},
|
date-added = {2019-10-24 20:19:01 +0200},
|
||||||
date-modified = {2019-10-24 20:19:01 +0200},
|
date-modified = {2019-10-24 20:19:01 +0200},
|
||||||
doi = {10.1021/acs.jctc.8b00591},
|
doi = {10.1021/acs.jctc.8b00591},
|
||||||
eprint = {https://doi.org/10.1021/acs.jctc.8b00591},
|
|
||||||
journal = {Journal of Chemical Theory and Computation},
|
journal = {Journal of Chemical Theory and Computation},
|
||||||
note = {PMID: 30347156},
|
note = {PMID: 30347156},
|
||||||
pages = {6240-6252},
|
pages = {6240-6252},
|
||||||
|
@ -667,6 +667,108 @@ Thioacrolein & $^1 A'' (n \ra \pis)$ &0.000 &86.4 &2.17 &2.17 &2.14 &2.15 &2.1
|
|||||||
\end{table}
|
\end{table}
|
||||||
\clearpage
|
\clearpage
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histograms13}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the molecules of the QUEST database containing from one to three non-hydrogen atoms (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histograms4}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the molecules of the QUEST database containing four non-hydrogen atoms (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histograms56}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the molecules of the QUEST database containing five or six non-hydrogen atoms (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histograms710}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the molecules of the QUEST database containing from 7 and 10 non-hydrogen atoms (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histogramsnpi}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the $n \ra \pis$ excitations of the QUEST database (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histogramsppi}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the $\pi \ra \pis$ excitations of the QUEST database (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histogramsR}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the Rydberg excitations of the QUEST database (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histogramsV}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the valence excitations of the QUEST database (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histogramsS}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the singlet excitations of the QUEST database (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\begin{figure}[h]
|
||||||
|
\centering
|
||||||
|
\includegraphics[width=0.9\textwidth]{histogramsT}
|
||||||
|
\caption{Distribution of the error (in eV) in excitation energies (with respect to the TBE/aug-cc-pVTZ values) for various methods for the triplet excitations of the QUEST database (closed-shell compounds only).
|
||||||
|
Only the ``safe'' TBEs are considered (see Table \ref{tab:TBE}).
|
||||||
|
See Table in the main text for the values of the corresponding statistical quantities.
|
||||||
|
QC and TM indicate that Q-CHEM and TURBOMOLE scaling factors are considered, respectively.
|
||||||
|
The SOS-CC2 and SCS-CC2 approaches are obtained with the latter code.}
|
||||||
|
\end{figure}
|
||||||
|
|
||||||
|
\clearpage
|
||||||
|
|
||||||
\bibliography{QUESTDB}
|
\bibliography{QUESTDB}
|
||||||
|
|
||||||
|
|
||||||
|
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Loading…
Reference in New Issue
Block a user