update

2022-02-03 10:34:08 +01:00 · 2022-02-03 10:34:08 +01:00 · c5c8defaef
commit c5c8defaef
parent 2963305714
25 changed files with 883 additions and 108 deletions
--- a/Be2_cc-pvtz/pes_ooCIo1.dat
+++ b/Be2_cc-pvtz/pes_ooCIo1.dat
@ -1,7 +0,0 @@
 2.0	  -29.1966080358420     
 2.1	  -29.2015506409204     
 2.2	  -29.2038232313575     
 2.3	  -29.1993470332241     
 2.4	  -29.2033532918323     
 2.5	  -29.2134393947822     
 2.6	  -29.2166098791931     
--- a/Be2_cc-pvtz/pes_s2.dat
+++ b/Be2_cc-pvtz/pes_s2.dat
@ -0,0 +1,49 @@
 2.0          -29.20061739
 2.1          -29.20427294
 2.2          -29.20527840
 2.3          -29.20445330
 2.4          -29.20248046
 2.5          -29.19990890
 2.6          -29.19713862
 2.7          -29.19442307
 2.8          -29.19190427
 2.9          -29.18965076
 3.0          -29.18769070
 3.1          -29.18598972
 3.2          -29.18456927
 3.3          -29.18337314
 3.4          -29.18236743
 3.5          -29.18151977
 3.6          -29.18080246
 3.7          -29.18019195
 3.8          -29.17966921
 3.9          -29.17922830
 4.0          -29.17881201
 4.1          -29.17846170
 4.2          -29.17814832
 4.3          -29.17786558
 4.4          -29.17760871
 4.5          -29.17737368
 4.6          -29.17715728
 4.7          -29.17695677
 4.8          -29.17677001
 4.9          -29.17659524
 5.0          -29.17643110
 5.1          -29.17627641
 5.2          -29.17613042
 5.3          -29.17599247
 5.4          -29.17586207
 5.5          -29.17573890
 5.6          -29.17562253
 5.7          -29.17551256
 5.8          -29.17540866
 5.9          -29.17531047
 6.0          -29.17521745
 6.5          -29.17481817
 7.0          -29.17450006
 7.5          -29.17423823
 8.0          -29.17401838
 8.5          -29.17383077
 9.0          -29.17366821
 9.5          -29.17352569
 10.0         -29.17339952
--- a/Be2_cc-pvtz/pes_s4.dat
+++ b/Be2_cc-pvtz/pes_s4.dat
@ -0,0 +1,8 @@
 2.0          -29.24535665
 2.1          -29.25043903
 2.2          -29.25308671
 2.3          -29.25405213
 2.4          -29.25395860
 2.5          -29.25330167
 2.6          -29.25242581
 2.7          -29.25153254
--- a/Be2_cc-pvtz/pes_s6.dat
+++ b/Be2_cc-pvtz/pes_s6.dat
@ -1,49 +0,0 @@
 2.0	     -29.24617744
 2.1	     -29.25125233
 2.2	     -29.25388559
 2.3	     -29.25482857
 2.4	     -29.25470573
 2.5	     -29.25401484
 2.6	     -29.25310356
 2.7	     -29.25217800
 2.8	     -29.25134099
 2.9	     -29.25063192
 3.0	     -29.25005554
 3.1	     -29.24959951
 3.2	     -29.24924479
 3.3	     -29.24897110
 3.4	     -29.24875995
 3.5	     -29.24859578
 3.6	     -29.24846640
 3.7	     -29.24836227
 3.8	     -29.24827644
 3.9	     -29.24820382
 4.0	     -29.24814056
 4.1	     -29.24808421
 4.2	     -29.24803275
 4.3	     -29.24798481
 4.4	     -29.24793935
 4.5	     -29.24789567
 4.6	     -29.24785329
 4.7	     -29.24781190
 4.8	     -29.24777141
 4.9	     -29.24773179
 5.0	     -29.24769310
 5.1	     -29.24765551
 5.2	     -29.24761912
 5.3	     -29.24758408
 5.4	     -29.24755049
 5.5	     -29.24751843
 5.6	     -29.24748798
 5.7	     -29.24745915
 5.8	     -29.24743194
 5.9	     -29.24740638
 6.0	     -29.24738241
 6.5	     -29.24728562
 7.0	     -29.24722268
 7.5	     -29.24718538
 8.0	     -29.24716501
 8.5	     -29.24715427
 9.0	     -29.24714847
 9.5	     -29.24714506
 10.0	     -29.24714286
--- a/F2_cc-pvdz/pes_ooCIo2.5.dat
+++ b/F2_cc-pvdz/pes_ooCIo2.5.dat
@ -1,5 +1,5 @@
 0.95        -198.66684067
-1.0         -198.79251213
+1.0         -198.79407622
 1.05        -198.87723091
 1.1         -198.94284955
 1.15        -198.99751854
@ -8,3 +8,4 @@
 1.3         -199.06640451
 1.35        -199.07462221
 1.4         -199.07877608
 1.45        -199.07773953
--- a/F2_cc-pvdz/pes_s4.dat
+++ b/F2_cc-pvdz/pes_s4.dat
@ -1,4 +1,13 @@
 0.95        -198.66959289
 1.0         -198.79704027
 1.05        -198.88890844
-1.1         -198.95474081
+1.1         -198.95474034
 1.15        -199.00145640
 1.2         -199.03408791
 1.25        -199.05631035
 1.3         -199.07083351
 1.35        -199.07968143
 1.4         -199.08438267
 1.45        -199.08609921
 1.5         -199.08571570
 1.55        -199.08390486
--- a/H2O_cc-pvdz/pes_s2.dat
+++ b/H2O_cc-pvdz/pes_s2.dat
@ -0,0 +1,48 @@
 0.6          -75.42521241
 0.65         -75.67618776
 0.7          -75.84676224
 0.75         -75.96052880
 0.8          -76.03333701
 0.85         -76.07627944
 0.9          -76.09806887
 0.9572       -76.10474308
 1.0          -76.10074101
 1.05         -76.08931906
 1.1          -76.07292574
 1.2          -76.03209531
 1.3          -75.98694943
 1.4          -75.94188048
 1.5          -75.89937555
 1.6          -75.86116611
 1.7          -75.82703231
 1.8          -75.79807124
 1.9          -75.77389609
 2.0          -75.75340733
 2.1          -75.72870735
 2.2          -75.72722492
 2.3          -75.73198396
 2.4          -75.73550538
 2.5          -75.73803278
 2.6          -75.73985528
 2.7          -75.74116769
 2.8          -75.74211661
 2.9          -75.74283716
 3.0          -75.74343323
 3.1          -75.74389829
 3.2          -75.74421949
 3.3          -75.74443169
 3.4          -75.74457095
 3.5          -75.74466504
 3.6          -75.74472824
 3.7          -75.74477041
 3.8          -75.74479936
 3.9          -75.74481657
 4.0          -75.74482725
 4.5          -75.74483722
 5.0          -75.74379080
 5.5          -75.74379208
 6.0          -75.74379197
 6.5          -75.74379197
 7.0          -75.74483492
 7.5          -75.74051473
 8.0          -75.74051254
--- a/H2O_cc-pvdz/pes_s4.dat
+++ b/H2O_cc-pvdz/pes_s4.dat
@ -0,0 +1,16 @@
 0.6          -75.54138676
 0.65         -75.79516840
 0.7          -75.96831642
 0.75         -76.08400864
 0.8          -76.15866928
 0.85         -76.20384619
 0.9          -76.22778698
 0.9572       -76.23681706
 1.0          -76.23451385
 1.05         -76.22500452
 1.1          -76.21042758
 1.2          -76.17272601
 1.3          -76.13066424
 1.4          -76.08918242
 1.5          -76.05088557
 1.6          -76.01689114
--- a/H2O_cc-pvdz/plot_error.gnu
+++ b/H2O_cc-pvdz/plot_error.gnu
@ -63,6 +63,8 @@ plot '< paste pes_fci.dat pes_rhf.dat'    using 1:($4-$2) w l ls 1 notitle, \
     '< paste pes_fci.dat pes_CISDT.dat'  using 1:($4-$2) w l ls 3 notitle, \
     '< paste pes_fci.dat pes_CISDTQ.dat' using 1:($4-$2) w l ls 3 notitle, \
     '< paste pes_fci.dat pes_s0.dat'     using 1:($4-$2) w l ls 8 notitle, \
     '< paste pes_fci.dat pes_s2.dat'     using 1:($4-$2) w l ls 8 notitle, \
     '< paste pes_fci.dat pes_s4.dat'     using 1:($4-$2) w l ls 8 notitle, \
     '< paste pes_fci.dat pes_CIo1.dat'   using 1:($4-$2) w l ls 4 notitle, \
     '< paste pes_fci.dat pes_CIo1.5.dat' using 1:($4-$2) w l ls 5 notitle, \
     '< paste pes_fci.dat pes_CIo2.dat'   using 1:($4-$2) w l ls 4 notitle, \
--- a/H2O_cc-pvdz/plot_pes.gnu
+++ b/H2O_cc-pvdz/plot_pes.gnu
@ -90,6 +90,8 @@ plot 'pes_rhf.dat'    w l ls 1 notitle, \
     'pes_CISDT.dat'  w l ls 3 notitle, \
     'pes_CISDTQ.dat' w l ls 3 notitle, \
     'pes_s0.dat'     w l ls 8 notitle, \
     'pes_s2.dat'     w l ls 8 notitle, \
     'pes_s4.dat'     w l ls 8 notitle, \
     'pes_CIo1.dat'   w l ls 4 notitle, \
     'pes_CIo1.5.dat' w l ls 5 notitle, \
     'pes_CIo2.dat'   w l ls 4 notitle, \
--- a/H8_cc-pvdz/pes_CISDTQ_3.dat
+++ b/H8_cc-pvdz/pes_CISDTQ_3.dat
@ -0,0 +1,73 @@
 1.0           -3.44867983
 1.1           -3.81042898
 1.2           -4.06021015
 1.3           -4.23141513
 1.4           -4.34638470
 1.5           -4.42068248
 1.6           -4.46526972
 1.7           -4.48796707
 1.75          -4.49299824
 1.8           -4.49461624
 1.85          -4.49332055
 1.9           -4.48954428
 1.95          -4.48366083
 2.0           -4.47600040
 2.05          -4.46683879
 2.1           -4.45642573
 2.15          -4.44497705
 2.2           -4.43267395
 2.25          -4.41968621
 2.3           -4.40615415
 2.4           -4.37794048
 2.5           -4.34886979
 2.6           -4.31958167
 2.7           -4.29056828
 2.8           -4.26221743
 2.9           -4.23480365
 3.0           -4.20852687
 3.1           -4.18352835
 3.2           -4.15989189
 3.3           -4.13764733
 3.4           -4.11679545
 3.5           -4.09729925
 3.6           -4.07910889
 3.7           -4.06215172
 3.8           -4.04635298
 3.9           -4.03163691
 4.0           -4.01792208
 4.1           -4.00514429
 4.2           -3.99323593
 4.3           -3.98214364
 4.4           -3.97183506
 4.5           -3.96230243
 4.6           -3.95360538
 4.7           -3.94598920
 4.8           -3.94014444
 4.9           -3.93665318
 5.0           -3.89799445
 5.1           -3.93578183
 5.2           -3.93671001
 5.3           -3.84048779
 5.4           -3.90543607
 5.5           -3.86721247
 5.6           -3.80539725
 5.7           -3.94685682
 5.8           -3.87386809
 5.9           -3.93496261
 6.0           -3.86283296
 6.1           -3.94150395
 6.2           -3.94098445
 6.3           -3.93667979
 6.4           -4.06082335
 6.5           -4.01446416
 6.6           -3.93832712
 6.7           -3.94439348
 6.8           -3.93943296
 6.9           -3.94039333
 7.0           -3.94118586
 7.5           -3.94652098
 8.0           -3.94774171
 8.5           -3.95419224
 9.0           -3.94873438
 9.5           -3.94935359
 10.0          -3.94969371
--- a/H8_cc-pvdz/pes_s4.dat
+++ b/H8_cc-pvdz/pes_s4.dat
@ -8,4 +8,38 @@
 1.7           -4.48233094
 1.75          -4.48715045
 1.8           -4.48855708
-1.85          -4.48703167
+1.85          -4.48703089
 1.9           -4.48300758
 1.95          -4.47686466
 2.0           -4.46892600
 2.05          -4.45947700
 2.1           -4.44876370
 2.15          -4.43699870
 2.2           -4.42436946
 2.25          -4.41103857
 2.3           -4.39714869
 2.4           -4.36817757
 2.5           -4.33828459
 2.6           -4.30810281
 2.8           -4.24872240
 2.9           -4.22020326
 3.0           -4.19278779
 3.1           -4.16663308
 3.2           -4.14184183
 3.3           -4.11848391
 3.4           -4.09659788
 3.5           -4.07620166
 3.6           -4.05730791
 3.7           -4.03980713
 3.8           -4.02575079
 3.9           -4.00909223
 4.0           -3.99575555
 4.1           -3.98369637
 4.2           -3.97287988
 4.3           -3.96327552
 4.4           -3.95479525
 4.5           -3.94742562
 4.6           -3.94114261
 4.7           -3.93569372
 4.8           -3.93120805
 4.9           -3.92751726
--- a/Manuscript/sup.tex
+++ b/Manuscript/sup.tex
@ -0,0 +1,397 @@
 \documentclass[aip,jcp,preprint,noshowkeys,superscriptaddress]{revtex4-1}
 \usepackage{graphicx,dcolumn,bm,xcolor,microtype,multirow,amscd,amsmath,amssymb,amsfonts,physics,wrapfig,txfonts}
 \usepackage[version=4]{mhchem}
 %\usepackage{natbib}
 %\bibliographystyle{achemso}
 \newcommand{\ie}{\textit{i.e.}}
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 \newcommand{\alert}[1]{\textcolor{black}{#1}}
 \usepackage[normalem]{ulem}
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 \newcommand{\AS}[1]{\toto{(\underline{\bf AS}: #1)}}
 \newcommand{\ant}[1]{\textcolor{orange}{#1}}
 \newcommand{\SI}{\textcolor{blue}{Supporting Information}}
 \newcommand{\mc}{\multicolumn}
 \newcommand{\fnm}{\footnotemark}
 \newcommand{\fnt}{\footnotetext}
 \newcommand{\tabc}[1]{\multicolumn{1}{c}{#1}}
 \newcommand{\QP}{\textsc{quantum package}}
 \newcommand{\hI}{\Hat{1}}
 \newcommand{\hT}{\Hat{T}}
 \newcommand{\hH}{\Hat{H}}
 \newcommand{\bH}{\Bar{H}}
 \newcommand{\ERI}[2]{v_{#1}^{#2}}
 \newcommand{\EHF}{E_\text{HF}}
 \newcommand{\EDOCI}{E_\text{DOCI}}
 \newcommand{\EFCI}{E_\text{FCI}}
 \newcommand{\ECC}{E_\text{CC}}
 \newcommand{\EVCC}{E_\text{VCC}}
 \newcommand{\EpCCD}{E_\text{pCCD}}
 \newcommand{\si}{\sigma}
 \renewcommand{\thesection}{S\arabic{section}}
 \renewcommand{\thetable}{S\arabic{table}}
 \renewcommand{\thefigure}{S\arabic{figure}}
 \renewcommand{\theequation}{S\arabic{equation}}
 \usepackage[
 	colorlinks=true,
    citecolor=blue,
    breaklinks=true
 	]{hyperref}
 \urlstyle{same}
 \begin{document}
 \newcommand{\LCPQ}{Laboratoire de Chimie et Physique Quantiques (UMR 5626), Universit\'e de Toulouse, CNRS, UPS, France}
 \title{Configuration interaction with seniority and excitation degree}
 \author{F\'abris Kossoski}
 \email{fkossoski@irsamc.ups-tlse.fr}
 \affiliation{\LCPQ}
 \author{Pierre-Fran\c{c}ois Loos}
 \email{loos@irsamc.ups-tlse.fr}
 \affiliation{\LCPQ}
 % Abstract
 \begin{abstract}
 %Here comes the abstract.
 %\bigskip
 %\begin{center}
 %        \boxed{\includegraphics[width=0.4\linewidth]{TOC}}
 %\end{center}
 %\bigskip
 \end{abstract}
 % Title
 \maketitle
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{Computational details}}
 %\label{sec:comp_details}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\vspace{20cm}
 %x
 %\newpage
 %x
 %\newpage
 %Start.
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{H4}}
 %\label{sec:H4}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h4_pes}
 	\caption{Potential energy curves for linear \ce{H4}, as function of the symmetric stretching coordinate,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:h4_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h4_pes_error}
 	\caption{Energy difference to the FCI results for linear \ce{H4}, as function of the symmetric stretching coordinate,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:h4_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h4_pes_stat}
 	\caption{Nonparallelity error for linear \ce{H4},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:h4_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h4_xe}
 	\caption{Equilibrium bond length of linear \ce{H4},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:h4_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{H8}}
 %\label{sec:H8}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h8_pes}
 	\caption{Potential energy curves for linear \ce{H8}, as function of the symmetric stretching coordinate,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:h8_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h8_pes_error}
 	\caption{Energy difference to the FCI results for linear \ce{H8}, as function of the symmetric stretching coordinate,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:h8_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h8_pes_stat}
 	\caption{Nonparallelity error for linear \ce{H8},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:h8_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h8_xe}
 	\caption{Equilibrium bond length of linear \ce{H8},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:h8_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{H2O}}
 %\label{sec:H2O}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h2o_pes}
 	\caption{Potential energy curves for \ce{H2O}, as function of the symmetric O$-$H distance,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:h2o_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h2o_pes_error}
 	\caption{Energy difference to the FCI results for \ce{H2O}, as function of the symmetric O$-$H distance,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:h2o_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h2o_pes_stat}
 	\caption{Nonparallelity error for \ce{H2O},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:h2o_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{h2o_xe}
 	\caption{Equilibrium bond length of \ce{H2O},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:h2o_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{N2}}
 %\label{sec:N2}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{n2_pes}
 	\caption{Potential energy curves for \ce{N2},
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:n2_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{n2_pes_error}
 	\caption{Energy difference to the FCI results for \ce{N2},
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:n2_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{n2_pes_stat}
 	\caption{Nonparallelity error for \ce{N2},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:n2_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{n2_xe}
 	\caption{Equilibrium bond length of \ce{N2},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:n2_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{Ethylene}}
 %\label{sec:ethylene}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{ethylene_pes}
 	\caption{Potential energy curves for ethylene, as function of the C$=$C distance,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:ethylene_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{ethylene_pes_error}
 	\caption{Energy difference to the FCI results for ethylene, as function of the C$=$C distance,
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:ethylene_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{ethylene_pes_stat}
 	\caption{Nonparallelity error for ethylene,
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:ethylene_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{ethylene_xe}
 	\caption{C$=$C equilibrium bond length of ethylene,
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:ethylene_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{HF}}
 %\label{sec:hf}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{hf_pes}
 	\caption{Potential energy curves for \ce{HF},
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:hf_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{hf_pes_error}
 	\caption{Energy difference to the FCI results for \ce{HF},
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:hf_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{hf_pes_stat}
 	\caption{Nonparallelity error for \ce{HF},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:hf_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{hf_xe}
 	\caption{Equilibrium bond length of \ce{HF},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:hf_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{F2}}
 %\label{sec:f2}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{f2_pes}
 	\caption{Potential energy curves for \ce{F2},
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:f2_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{f2_pes_error}
 	\caption{Energy difference to the FCI results for \ce{F2},
 	computed with different CI methods and the cc-pvdz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:f2_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{f2_pes_stat}
 	\caption{Nonparallelity error for \ce{F2},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvdz basis set.}
        \label{fig:f2_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{f2_xe}
 	\caption{Equilibrium bond length of \ce{F2},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:f2_xe}
 \end{figure}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\section{\ce{Be2}}
 %\label{sec:be2}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{be2_pes}
 	\caption{Potential energy curves for \ce{Be2},
 	computed with different CI methods and the cc-pvtz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:be2_pes}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{be2_pes_error}
 	\caption{Energy difference to the FCI results for \ce{Be2},
 	computed with different CI methods and the cc-pvtz basis set, 
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right).}
        \label{fig:be2_pes_error}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{be2_pes_stat}
 	\caption{Nonparallelity error for \ce{Be2},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:be2_pes_stat}
 \end{figure}
 \begin{figure}[h!]
 \includegraphics[width=\linewidth]{be2_xe}
 	\caption{Equilibrium bond length of \ce{Be2},
 	as function of the computational scaling of excitation-based CI (red) and CIo (green) methods,
 	with Hartree-Fock orbitals (left) and orbitals optimized for a given CI method (right), for the cc-pvtz basis set.}
        \label{fig:be2_xe}
 \end{figure}
 %End.
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %\bibliography{seniority}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 \end{document}
--- a/N2_cc-pvdz/pes_ooCIo1.dat
+++ b/N2_cc-pvdz/pes_ooCIo1.dat
@ -1,39 +1,39 @@
-0.7       -107.719861489798
+0.7         -107.71971818
-0.75      -108.190487355053
+0.75        -108.19048717
-0.8       -108.522672152832
+0.8         -108.52267176
-0.85      -108.752689592144
+0.85        -108.75268927
-0.9       -108.907156169463
+0.9         -108.90715558
-0.95      -109.005802013732
+0.95        -109.00580171
-1.0       -109.063375013129
+1.0         -109.06337480
-1.05      -109.090956507777
+1.05        -109.09095623
-1.1       -109.096885140958
+1.1         -109.09688498
-1.15      -109.087486621426
+1.15        -109.08741625
-1.2       -109.067222527047
+1.2         -109.06722225
-1.3       -109.008017827245
+1.3         -109.00801766
-1.4       -108.938440822557
+1.4         -108.92346190
-1.5       -108.868657641321
+1.5         -108.86089148
-1.6       -108.802803906934
+1.6         -108.80280383
-1.7       -108.750484902844
+1.7         -108.75048483
-1.8       -108.703883691421
+1.8         -108.70388358
-1.9       -108.662487342529
+1.9         -108.66248718
-2.0       -108.625696459628
+2.0         -108.62569632
-2.1       -108.592946689342
+2.1         -108.59294651
-2.2       -108.563736367223
+2.2         -108.56373617
-2.3       -108.537635143983
+2.3         -108.53763494
-2.4       -108.514278627088
+2.4         -108.51427825
-2.5       -108.493356131221
+2.5         -108.49335576
-2.6       -108.474600160017
+2.6         -108.47459970
-2.7       -108.457778257019
+2.7         -108.45777025
-2.8       -108.442684775302
+2.8         -108.44267798
-2.9       -108.429137933178
+2.9         -108.42913243
-3.0       -108.416976107563
+3.0         -108.41697182
-3.1       -108.406054814094
+3.1         -108.40605214
-3.2       -108.400321329949
+3.2         -108.39624544
-3.3       -108.550364250373
+3.3         -108.55108570
-3.4       -108.383598649484
+3.4         -108.54976453
-3.5       -108.353420461743
+3.5         -108.37243102
-3.6       -108.546738950970
+3.6         -108.54763383
-3.7       -108.364397230315
+3.7         -108.36423245
-3.8       -108.359262494770
+3.8         -108.35520954
-3.9       -108.544565558267
+3.9         -108.54552928
-4.0       -108.544057038689
+4.0         -108.34646795
--- a/N2_cc-pvdz/pes_ooCIo1_1.dat
+++ b/N2_cc-pvdz/pes_ooCIo1_1.dat
@ -0,0 +1,39 @@
 0.7         -107.71986115
 0.75        -108.19048716
 0.8         -108.52267167
 0.85        -108.75268918
 0.9         -108.90715568
 0.95        -109.00572341
 1.0         -109.06335250
 1.05        -109.09095635
 1.1         -109.09693942
 1.15        -109.07222063
 1.2         -109.06729483
 1.3         -108.98628467
 1.4         -108.92346190
 1.5         -108.86089147
 1.6         -108.80280383
 1.7         -108.75048482
 1.8         -108.70388360
 1.9         -108.66248720
 2.0         -108.62569632
 2.1         -108.59294651
 2.2         -108.56373617
 2.3         -108.53763494
 2.4         -108.51427838
 2.5         -108.49335582
 2.6         -108.47459977
 2.7         -108.45777026
 2.8         -108.44267796
 2.9         -108.42913241
 3.0         -108.41697182
 3.1         -108.40605214
 3.2         -108.39624545
 3.3         -108.54593554
 3.4         -108.54528890
 3.5         -108.37243103
 3.6         -108.54763383
 3.7         -108.36034067
 3.8         -108.35520954
 3.9         -108.54321971
 4.0         -108.34646792
--- a/N2_cc-pvdz/pes_ooCIo1_2.dat
+++ b/N2_cc-pvdz/pes_ooCIo1_2.dat
@ -0,0 +1,39 @@
 0.7       -107.719861489798
 0.75      -108.190487355053
 0.8       -108.522672152832
 0.85      -108.752689592144
 0.9       -108.907156169463
 0.95      -109.005802013732
 1.0       -109.063375013129
 1.05      -109.090956507777
 1.1       -109.096885140958
 1.15      -109.087486621426
 1.2       -109.067222527047
 1.3       -109.008017827245
 1.4       -108.938440822557
 1.5       -108.868657641321
 1.6       -108.802803906934
 1.7       -108.750484902844
 1.8       -108.703883691421
 1.9       -108.662487342529
 2.0       -108.625696459628
 2.1       -108.592946689342
 2.2       -108.563736367223
 2.3       -108.537635143983
 2.4       -108.514278627088
 2.5       -108.493356131221
 2.6       -108.474600160017
 2.7       -108.457778257019
 2.8       -108.442684775302
 2.9       -108.429137933178
 3.0       -108.416976107563
 3.1       -108.406054814094
 3.2       -108.400321329949
 3.3       -108.550364250373
 3.4       -108.383598649484
 3.5       -108.353420461743
 3.6       -108.546738950970
 3.7       -108.364397230315
 3.8       -108.359262494770
 3.9       -108.544565558267
 4.0       -108.544057038689
--- a/N2_cc-pvdz/pes_ooCIs0.dat
+++ b/N2_cc-pvdz/pes_ooCIs0.dat
@ -0,0 +1,39 @@
 0.7         -107.69089402
 0.75        -108.14742102
 0.8         -108.49261237
 0.85        -108.72253954
 0.9         -108.87727483
 0.95        -108.97658325
 1.0         -109.03524205
 1.05        -109.06438869
 1.1         -109.07264153
 1.15        -109.06599699
 1.2         -109.04972375
 1.3         -108.99250194
 1.4         -108.93692086
 1.5         -108.88386125
 1.6         -108.83798295
 1.7         -108.80060303
 1.8         -108.77121108
 1.9         -108.74855322
 2.0         -108.73126476
 2.1         -108.71812117
 2.2         -108.70813082
 2.3         -108.70053283
 2.4         -108.69475115
 2.5         -108.69035583
 2.6         -108.68702415
 2.7         -108.68451195
 2.8         -108.68262777
 2.9         -108.69016707
 3.0         -108.68919667
 3.1         -108.68848183
 3.2         -108.67882080
 3.3         -108.67838418
 3.4         -108.67805204
 3.5         -108.67779683
 3.6         -108.67759892
 3.7         -108.67744398
 3.8         -108.67732304
 3.9         -108.67722883
 4.0         -108.67715579
--- a/N2_cc-pvdz/pes_s4.dat
+++ b/N2_cc-pvdz/pes_s4.dat
@ -1,4 +1,11 @@
 0.7         -107.83958531
 0.75        -108.31547672
 0.8         -108.65303122
-0.85        -108.88856751
+0.85        -108.88856749
 0.9         -109.04875862
 0.95        -109.15338794
 1.0         -109.21725525
 1.05        -109.25148058
 1.1         -109.26441729
 1.15        -109.26232360
 1.2         -109.24988240
--- a/N2_cc-pvdz/plot_error.gnu
+++ b/N2_cc-pvdz/plot_error.gnu
@ -17,9 +17,9 @@ xmax=4.0
 set xrange[0.7:4.0]
 ymin=0.0
-ymax=0.5
+ymax=0.65
 # VIEW 1
-set yrange[0.0:1.1]
+set yrange[0.0:0.65]
 set format y "%.1f"
 ###################################################################################
@ -73,6 +73,7 @@ set format y ""
 plot '< paste pes_fci.dat pes_rhf.dat'      using 1:($4-$2) w l ls 1 notitle, \
     '< paste pes_fci.dat pes_ooCISD.dat'   using 1:($4-$2) w l ls 3 notitle, \
     '< paste pes_fci.dat pes_ooCIs0.dat'   using 1:($4-$2) w l ls 8 notitle, \
     '< paste pes_fci.dat pes_ooCIo1.dat'   using 1:($4-$2) w l ls 4 notitle, \
     '< paste pes_fci.dat pes_ooCIo1.5.dat' using 1:($4-$2) w l ls 5 notitle, \
     '< paste pes_fci.dat pes_ooCIo2.dat'   using 1:($4-$2) w l ls 4 notitle, \
--- a/N2_cc-pvdz/plot_pes.gnu
+++ b/N2_cc-pvdz/plot_pes.gnu
@ -113,8 +113,8 @@ fit [1.7:1.8] [*:*] f(x) 'pes_rhf.dat' u 1:($2) via a,b
 set label 1 'RHF' at 1.70,-108.42 rotate by r(a) center tc ls 1 #font 'Verdana,20'
 fit [2.9:3.1] [*:*] f(x) 'pes_CISD.dat' u 1:($2) via a,b
 set label 2 'ooCISD' at 3.0,-108.53 rotate by r(a) center tc ls 3 #font 'Verdana,20'
-fit [3.6:3.8] [*:*] f(x) 'pes_ooCIo1.dat' u 1:($2) via a,b
+#fit [3.6:3.8] [*:*] f(x) 'pes_ooCIo1.dat' u 1:($2) via a,b
-set label 11 'ooCIo1' at 3.5,-108.325 rotate by r(a) center tc ls 4 #font 'Verdana,20'
+#set label 11 'ooCIo1' at 3.5,-108.325 rotate by r(a) center tc ls 4 #font 'Verdana,20'
 fit [3.6:3.8] [*:*] f(x) 'pes_ooCIo2.dat' u 1:($2) via a,b
 set label 12 'ooCIo2' at 3.5,-108.644 rotate by r(a) center tc ls 4 #font 'Verdana,20'
 fit [3.0:4.0] [*:*] f(x) 'pes_fci.dat' u 1:($2) via a,b
@ -122,10 +122,11 @@ set label 20 'FCI' at 3.7,-108.980 rotate by r(a) center tc ls 2 #font 'Verdana,
 plot 'pes_rhf.dat'      w l ls 1 notitle, \
     'pes_ooCISD.dat'   w l ls 3 notitle, \
     'pes_ooCIs0.dat'   w l ls 8 notitle, \
     'pes_ooCIo1.dat'   w l ls 4 notitle, \
     'pes_ooCIo1.5.dat' w l ls 5 notitle, \
     'pes_ooCIo2.dat'   w l ls 4 notitle, \
     'pes_fci.dat'      w l ls 2 notitle
 #    'pes_ooCIo1.5.dat' w l ls 5 notitle, \
 #    'pes_ooCIo2.5.dat' w l ls 5 notitle, \
 ###################################################################################
--- a/benzene_cc-pvdz/GS_HF/ciexc.dat
+++ b/benzene_cc-pvdz/GS_HF/ciexc.dat
@ -1,5 +1,5 @@
 0 -230.722244986
 1 -230.722244986
 2 -231.39090565
-3 -231.41037687
+3 -231.41036828
 4 -231.55338527
--- a/benzene_cc-pvdz/GS_HF/cio.dat
+++ b/benzene_cc-pvdz/GS_HF/cio.dat
@ -3,6 +3,6 @@
 1.5 -230.81569609
 2   -231.39210876
 2.5 -231.39778557
-3   -231.43449389
+3   -231.43199101
-3.5 -231.46525899
+3.5 -231.46364160
 4   -231.54066139
--- a/benzene_cc-pvdz/GS_HF/plot.gnu
+++ b/benzene_cc-pvdz/GS_HF/plot.gnu
@ -0,0 +1,51 @@
 #!/bin/gnuplot
 efci=-231.585134986
 #set terminal pngcairo size 600,600 enhanced font 'Verdana,10'
 #set output 'plot_pes.png'
 set terminal postscript eps size 5.3,3.0 enhanced color \
    font 'Helvetica,18' linewidth 2
 set output 'plot.eps'
 xmin=-0.1
 xmax=3.5
 ymin=0.0
 ymax=0.2
 set grid
 #set format y "%.0e*10^{%T}"
 set format y "10^{%T}"
 set xrange[-0.1:4.1]
 #set yrange[0.0:0.2]
 set logscale y
 set yrange[1e-2:1]
 #set yrange[1e-4:1.0]
 #set xrange[1.9:3.1]
 #set yrange[0.0:0.006]
 set style line 1 dt 1 lw 1 linecolor rgb "gray60"    pt 13 ps 1.75
 set style line 3 dt 1 lw 1 linecolor rgb "light-red" pt 13 ps  1.75
 set style line 4 dt 1 lw 1 linecolor rgb "sea-green" pt 13 ps  1.75
 set style line 5 dt 2 lw 1 linecolor rgb "sea-green" pt 13 ps  1.75
 set style line 11 dt 1 lw 1.5 linecolor rgb "gray60" 
 set style line 13 dt 2 lw 1.5 linecolor rgb "light-red" pt 7 ps  1.75
 set style line 14 dt 2 lw 1.5 linecolor rgb "sea-green" pt 7 ps  1.75
 set style line 15 dt 2 lw 1.5 linecolor rgb "sea-green" pt 7 ps  1.75
 set xlabel 'Computational scaling'
 set ylabel 'Energy error (Hartree)'
 plot 'ciexc.dat'   u 1:($2-efci)  w lp ls 3  notitle, \
     'oociexc.dat' u 1:($2-efci)  w l  ls 11 notitle, \
     'oociexc.dat' u 1:($2-efci)  w lp ls 13 notitle, \
     'cio.dat'     u 1:($2-efci)  w lp ls 4  notitle, \
     'oocio.dat'   u 1:($2-efci)  w l  ls 11 notitle, \
     'oocio.dat'   u 1:($2-efci)  w lp ls 14 notitle
 #pause -1
--- a/benzene_cc-pvdz/GS_HF/plot.sh
+++ b/benzene_cc-pvdz/GS_HF/plot.sh
@ -0,0 +1,5 @@
 #!/bin/bash
 gnuplot plot.gnu
 epspdf plot.eps
 okular plot.pdf
--- a/ethylene_cc-pvdz/pes_s2.dat
+++ b/ethylene_cc-pvdz/pes_s2.dat
@ -2,4 +2,14 @@
 1.6          -77.31953422
 1.7          -77.55928894
 1.8          -77.73711723
-1.9          -77.86740054
+1.9          -77.86740056
 2.0          -77.96112213
 2.1          -78.02682060
 2.2          -78.07101949
 2.3          -78.09872198
 2.4          -78.11389136
 2.5          -78.11962835
 2.52053      -78.11987080
 2.6          -78.11836704
 2.7          -78.11199606
 2.8          -78.10195783