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root/group/trunk/electrostaticMethodsPaper/SupportingInfo.tex
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Committed: Tue Feb 28 14:09:55 2006 UTC (19 years, 2 months ago) by chrisfen
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# Content
1 %\documentclass[prb,aps,twocolumn,tabularx]{revtex4}
2 \documentclass[12pt]{article}
3 \usepackage{endfloat}
4 \usepackage{amsmath}
5 \usepackage{amssymb}
6 \usepackage{epsf}
7 \usepackage{times}
8 \usepackage{mathptm}
9 \usepackage{setspace}
10 \usepackage{tabularx}
11 \usepackage{graphicx}
12 \usepackage{booktabs}
13 %\usepackage{berkeley}
14 \usepackage[ref]{overcite}
15 \pagestyle{plain}
16 \pagenumbering{arabic}
17 \oddsidemargin 0.0cm \evensidemargin 0.0cm
18 \topmargin -21pt \headsep 10pt
19 \textheight 9.0in \textwidth 6.5in
20 \brokenpenalty=10000
21 \renewcommand{\baselinestretch}{1.2}
22 \renewcommand\citemid{\ } % no comma in optional reference note
23
24 \begin{document}
25
26 This document includes system based comparisons of the studied methods with smooth particle-mesh Ewald. Each of the seven systems comprises it's own section and has it's own discussion and tabular listing of the results for the $\Delta E$, force and torque vector magnitude, and force and torque vector direction comparisons.
27
28 \section{\label{app-water}Liquid Water}
29
30 \begin{table}[htbp]
31 \centering
32 \caption{Regression results for the liquid water system. Tabulated results include $\Delta E$ values (top set), force vector magnitudes (middle set) and torque vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, and RF = Reaction Field (where $\varepsilon \approx \infty$).}
33 \begin{tabular}{@{} ccrrrrrr @{}}
34 \\
35 \toprule
36 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
37 \cmidrule(lr){3-4}
38 \cmidrule(lr){5-6}
39 \cmidrule(l){7-8}
40 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
41 \midrule
42 PC & & 3.046 & 0.002 & -3.018 & 0.002 & 4.719 & 0.005 \\
43 SP & 0.0 & 1.035 & 0.218 & 0.908 & 0.313 & 1.037 & 0.470 \\
44 & 0.1 & 1.021 & 0.387 & 0.965 & 0.752 & 1.006 & 0.947 \\
45 & 0.2 & 0.997 & 0.962 & 1.001 & 0.994 & 0.994 & 0.996 \\
46 & 0.3 & 0.984 & 0.980 & 0.997 & 0.985 & 0.982 & 0.987 \\
47 SF & 0.0 & 0.977 & 0.974 & 0.996 & 0.992 & 0.991 & 0.997 \\
48 & 0.1 & 0.983 & 0.974 & 1.001 & 0.994 & 0.996 & 0.998 \\
49 & 0.2 & 0.992 & 0.989 & 1.001 & 0.995 & 0.994 & 0.996 \\
50 & 0.3 & 0.984 & 0.980 & 0.996 & 0.985 & 0.982 & 0.987 \\
51 GSC & & 0.918 & 0.862 & 0.852 & 0.756 & 0.801 & 0.700 \\
52 RF & & 0.971 & 0.958 & 0.975 & 0.987 & 0.959 & 0.983 \\
53
54 \midrule
55
56 PC & & -1.647 & 0.000 & -0.127 & 0.000 & -0.979 & 0.000 \\
57 SP & 0.0 & 0.735 & 0.368 & 0.813 & 0.537 & 0.865 & 0.659 \\
58 & 0.1 & 0.850 & 0.612 & 0.956 & 0.887 & 0.992 & 0.979 \\
59 & 0.2 & 0.996 & 0.989 & 1.000 & 1.000 & 1.000 & 1.000 \\
60 & 0.3 & 0.996 & 0.998 & 0.997 & 0.998 & 0.996 & 0.998 \\
61 SF & 0.0 & 0.998 & 0.995 & 1.000 & 0.999 & 1.000 & 0.999 \\
62 & 0.1 & 0.998 & 0.995 & 1.000 & 0.999 & 1.000 & 1.000 \\
63 & 0.2 & 0.999 & 0.998 & 1.000 & 1.000 & 1.000 & 1.000 \\
64 & 0.3 & 0.996 & 0.998 & 0.997 & 0.998 & 0.996 & 0.998 \\
65 GSC & & 0.998 & 0.995 & 1.000 & 0.999 & 1.000 & 1.000 \\
66 RF & & 0.999 & 0.995 & 1.000 & 0.999 & 1.000 & 1.000 \\
67
68 \midrule
69
70 PC & & 2.387 & 0.000 & 0.183 & 0.000 & 1.282 & 0.000 \\
71 SP & 0.0 & 0.847 & 0.543 & 0.904 & 0.694 & 0.935 & 0.786 \\
72 & 0.1 & 0.922 & 0.749 & 0.980 & 0.934 & 0.996 & 0.988 \\
73 & 0.2 & 0.987 & 0.985 & 0.989 & 0.992 & 0.990 & 0.993 \\
74 & 0.3 & 0.965 & 0.973 & 0.967 & 0.975 & 0.967 & 0.976 \\
75 SF & 0.0 & 0.978 & 0.990 & 0.988 & 0.997 & 0.993 & 0.999 \\
76 & 0.1 & 0.983 & 0.991 & 0.993 & 0.997 & 0.997 & 0.999 \\
77 & 0.2 & 0.986 & 0.989 & 0.989 & 0.992 & 0.990 & 0.993 \\
78 & 0.3 & 0.965 & 0.973 & 0.967 & 0.975 & 0.967 & 0.976 \\
79 GSC & & 0.995 & 0.981 & 0.999 & 0.991 & 1.001 & 0.994 \\
80 RF & & 0.993 & 0.989 & 0.998 & 0.996 & 1.000 & 0.999 \\
81 \bottomrule
82 \end{tabular}
83 \label{spceTabTMag}
84 \end{table}
85
86 \begin{table}[htbp]
87 \centering
88 \caption{Variance results from Gaussian fits to angular distributions of the force and torque vectors in the liquid water system. PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, RF = Reaction Field (where $\varepsilon \approx \infty$), GSSP = Group Switched Shifted Potential, and GSSF = Group Switched Shifted Force.}
89 \begin{tabular}{@{} ccrrrrrr @{}}
90 \\
91 \toprule
92 & & \multicolumn{3}{c}{Force $\sigma^2$} & \multicolumn{3}{c}{Torque $\sigma^2$} \\
93 \cmidrule(lr){3-5}
94 \cmidrule(l){6-8}
95 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA & 9 \AA & 12 \AA & 15 \AA \\
96 \midrule
97 PC & & 783.759 & 481.353 & 332.677 & 248.674 & 144.382 & 98.535 \\
98 SP & 0.0 & 659.440 & 380.699 & 250.002 & 235.151 & 134.661 & 88.135 \\
99 & 0.1 & 293.849 & 67.772 & 11.609 & 105.090 & 23.813 & 4.369 \\
100 & 0.2 & 5.975 & 0.136 & 0.094 & 5.553 & 1.784 & 1.536 \\
101 & 0.3 & 0.725 & 0.707 & 0.693 & 7.293 & 6.933 & 6.748 \\
102 SF & 0.0 & 2.238 & 0.713 & 0.292 & 3.290 & 1.090 & 0.416 \\
103 & 0.1 & 2.238 & 0.524 & 0.115 & 3.184 & 0.945 & 0.326 \\
104 & 0.2 & 0.374 & 0.102 & 0.094 & 2.598 & 1.755 & 1.537 \\
105 & 0.3 & 0.721 & 0.707 & 0.693 & 7.322 & 6.933 & 6.748 \\
106 GSC & & 2.431 & 0.614 & 0.274 & 5.135 & 2.133 & 1.339 \\
107 RF & & 2.091 & 0.403 & 0.113 & 3.583 & 1.071 & 0.399 \\
108 \midrule
109 GSSP & 0.0 & 2.431 & 0.614 & 0.274 & 5.135 & 2.133 & 1.339 \\
110 & 0.1 & 1.879 & 0.291 & 0.057 & 3.983 & 1.117 & 0.370 \\
111 & 0.2 & 0.443 & 0.103 & 0.093 & 2.821 & 1.794 & 1.532 \\
112 & 0.3 & 0.728 & 0.694 & 0.692 & 7.387 & 6.942 & 6.748 \\
113 GSSF & 0.0 & 1.298 & 0.270 & 0.083 & 3.098 & 0.992 & 0.375 \\
114 & 0.1 & 1.296 & 0.210 & 0.044 & 3.055 & 0.922 & 0.330 \\
115 & 0.2 & 0.433 & 0.104 & 0.093 & 2.895 & 1.797 & 1.532 \\
116 & 0.3 & 0.728 & 0.694 & 0.692 & 7.410 & 6.942 & 6.748 \\
117 \bottomrule
118 \end{tabular}
119 \label{spceTabAng}
120 \end{table}
121
122 \section{\label{app-ice}Solid Water: Ice I$_\textrm{c}$}
123
124 \begin{table}[htbp]
125 \centering
126 \caption{Regression results for the ice I$_\textrm{c}$ system. Tabulated results include $\Delta E$ values (top set), force vector magnitudes (middle set) and torque vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, and RF = Reaction Field (where $\varepsilon \approx \infty$).}
127 \begin{tabular}{@{} ccrrrrrr @{}}
128 \\
129 \toprule
130 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
131 \cmidrule(lr){3-4}
132 \cmidrule(lr){5-6}
133 \cmidrule(l){7-8}
134 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
135 \midrule
136 PC & & 19.897 & 0.047 & -29.214 & 0.048 & -3.771 & 0.001 \\
137 SP & 0.0 & -0.014 & 0.000 & 2.135 & 0.347 & 0.457 & 0.045 \\
138 & 0.1 & 0.321 & 0.017 & 1.490 & 0.584 & 0.886 & 0.796 \\
139 & 0.2 & 0.896 & 0.872 & 1.011 & 0.998 & 0.997 & 0.999 \\
140 & 0.3 & 0.983 & 0.997 & 0.992 & 0.997 & 0.991 & 0.997 \\
141 SF & 0.0 & 0.943 & 0.979 & 1.048 & 0.978 & 0.995 & 0.999 \\
142 & 0.1 & 0.948 & 0.979 & 1.044 & 0.983 & 1.000 & 0.999 \\
143 & 0.2 & 0.982 & 0.997 & 0.969 & 0.960 & 0.997 & 0.999 \\
144 & 0.3 & 0.985 & 0.997 & 0.961 & 0.961 & 0.991 & 0.997 \\
145 GSC & & 0.983 & 0.985 & 0.966 & 0.994 & 1.003 & 0.999 \\
146 RF & & 0.924 & 0.944 & 0.990 & 0.996 & 0.991 & 0.998 \\
147 \midrule
148 PC & & -4.375 & 0.000 & 6.781 & 0.000 & -3.369 & 0.000 \\
149 SP & 0.0 & 0.515 & 0.164 & 0.856 & 0.426 & 0.743 & 0.478 \\
150 & 0.1 & 0.696 & 0.405 & 0.977 & 0.817 & 0.974 & 0.964 \\
151 & 0.2 & 0.981 & 0.980 & 1.001 & 1.000 & 1.000 & 1.000 \\
152 & 0.3 & 0.996 & 0.998 & 0.997 & 0.999 & 0.997 & 0.999 \\
153 SF & 0.0 & 0.991 & 0.995 & 1.003 & 0.998 & 0.999 & 1.000 \\
154 & 0.1 & 0.992 & 0.995 & 1.003 & 0.998 & 1.000 & 1.000 \\
155 & 0.2 & 0.998 & 0.998 & 0.981 & 0.962 & 1.000 & 1.000 \\
156 & 0.3 & 0.996 & 0.998 & 0.976 & 0.957 & 0.997 & 0.999 \\
157 GSC & & 0.997 & 0.996 & 0.998 & 0.999 & 1.000 & 1.000 \\
158 RF & & 0.988 & 0.989 & 1.000 & 0.999 & 1.000 & 1.000 \\
159 \midrule
160 PC & & -6.367 & 0.000 & -3.552 & 0.000 & -3.447 & 0.000 \\
161 SP & 0.0 & 0.643 & 0.409 & 0.833 & 0.607 & 0.961 & 0.805 \\
162 & 0.1 & 0.791 & 0.683 & 0.957 & 0.914 & 1.000 & 0.989 \\
163 & 0.2 & 0.974 & 0.991 & 0.993 & 0.998 & 0.993 & 0.998 \\
164 & 0.3 & 0.976 & 0.992 & 0.977 & 0.992 & 0.977 & 0.992 \\
165 SF & 0.0 & 0.979 & 0.997 & 0.992 & 0.999 & 0.994 & 1.000 \\
166 & 0.1 & 0.984 & 0.997 & 0.996 & 0.999 & 0.998 & 1.000 \\
167 & 0.2 & 0.991 & 0.997 & 0.974 & 0.958 & 0.993 & 0.998 \\
168 & 0.3 & 0.977 & 0.992 & 0.956 & 0.948 & 0.977 & 0.992 \\
169 GSC & & 0.999 & 0.997 & 0.996 & 0.999 & 1.002 & 1.000 \\
170 RF & & 0.994 & 0.997 & 0.997 & 0.999 & 1.000 & 1.000 \\
171 \bottomrule
172 \end{tabular}
173 \label{iceTab}
174 \end{table}
175
176 \begin{table}[htbp]
177 \centering
178 \caption{Variance results from Gaussian fits to angular distributions of the force and torque vectors in the ice I$_\textrm{c}$ system. PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, RF = Reaction Field (where $\varepsilon \approx \infty$), GSSP = Group Switched Shifted Potential, and GSSF = Group Switched Shifted Force.}
179 \begin{tabular}{@{} ccrrrrrr @{}}
180 \\
181 \toprule
182 & & \multicolumn{3}{c}{Force $\sigma^2$} & \multicolumn{3}{c}{Torque $\sigma^2$} \\
183 \cmidrule(lr){3-5}
184 \cmidrule(l){6-8}
185 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA & 9 \AA & 12 \AA & 15 \AA \\
186 \midrule
187 PC & & 2128.921 & 603.197 & 715.579 & 329.056 & 221.397 & 81.042 \\
188 SP & 0.0 & 1429.341 & 470.320 & 447.557 & 301.678 & 197.437 & 73.840 \\
189 & 0.1 & 590.008 & 107.510 & 18.883 & 118.201 & 32.472 & 3.599 \\
190 & 0.2 & 10.057 & 0.105 & 0.038 & 2.875 & 0.572 & 0.518 \\
191 & 0.3 & 0.245 & 0.260 & 0.262 & 2.365 & 2.396 & 2.327 \\
192 SF & 0.0 & 1.745 & 1.161 & 0.212 & 1.135 & 0.426 & 0.155 \\
193 & 0.1 & 1.721 & 0.868 & 0.082 & 1.118 & 0.358 & 0.118 \\
194 & 0.2 & 0.201 & 0.040 & 0.038 & 0.786 & 0.555 & 0.518 \\
195 & 0.3 & 0.241 & 0.260 & 0.262 & 2.368 & 2.400 & 2.327 \\
196 GSC & & 1.483 & 0.261 & 0.099 & 0.926 & 0.295 & 0.095 \\
197 RF & & 2.887 & 0.217 & 0.107 & 1.006 & 0.281 & 0.085 \\
198 \midrule
199 GSSP & 0.0 & 1.483 & 0.261 & 0.099 & 0.926 & 0.295 & 0.095 \\
200 & 0.1 & 1.341 & 0.123 & 0.037 & 0.835 & 0.234 & 0.085 \\
201 & 0.2 & 0.558 & 0.040 & 0.037 & 0.823 & 0.557 & 0.519 \\
202 & 0.3 & 0.250 & 0.251 & 0.259 & 2.387 & 2.395 & 2.328 \\
203 GSSF & 0.0 & 2.124 & 0.132 & 0.069 & 0.919 & 0.263 & 0.099 \\
204 & 0.1 & 2.165 & 0.101 & 0.035 & 0.895 & 0.244 & 0.096 \\
205 & 0.2 & 0.706 & 0.040 & 0.037 & 0.870 & 0.559 & 0.519 \\
206 & 0.3 & 0.251 & 0.251 & 0.259 & 2.387 & 2.395 & 2.328 \\
207 \bottomrule
208 \end{tabular}
209 \label{iceTabAng}
210 \end{table}
211
212 \section{\label{app-melt}NaCl Melt}
213
214 \begin{table}[htbp]
215 \centering
216 \caption{Regression results for the molten NaCl system. Tabulated results include $\Delta E$ values (top set) and force vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, and SF = Shifted Force.}
217 \begin{tabular}{@{} ccrrrrrr @{}}
218 \\
219 \toprule
220 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
221 \cmidrule(lr){3-4}
222 \cmidrule(lr){5-6}
223 \cmidrule(l){7-8}
224 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
225 \midrule
226 PC & & -0.008 & 0.000 & -0.049 & 0.005 & -0.136 & 0.020 \\
227 SP & 0.0 & 0.937 & 0.996 & 0.880 & 0.995 & 0.971 & 0.999 \\
228 & 0.1 & 1.004 & 0.999 & 0.958 & 1.000 & 0.928 & 0.994 \\
229 & 0.2 & 0.960 & 1.000 & 0.813 & 0.996 & 0.811 & 0.954 \\
230 & 0.3 & 0.671 & 0.994 & 0.439 & 0.929 & 0.535 & 0.831 \\
231 SF & 0.0 & 1.001 & 1.000 & 0.949 & 1.000 & 1.008 & 1.000 \\
232 & 0.1 & 1.025 & 1.000 & 0.960 & 1.000 & 0.929 & 0.994 \\
233 & 0.2 & 0.966 & 1.000 & 0.813 & 0.996 & 0.811 & 0.954 \\
234 & 0.3 & 0.671 & 0.994 & 0.439 & 0.929 & 0.535 & 0.831 \\
235 \midrule
236 PC & & 1.103 & 0.000 & 0.989 & 0.000 & 0.802 & 0.000 \\
237 SP & 0.0 & 0.976 & 0.983 & 1.001 & 0.991 & 0.985 & 0.995 \\
238 & 0.1 & 0.996 & 0.997 & 0.997 & 0.998 & 0.996 & 0.996 \\
239 & 0.2 & 0.993 & 0.996 & 0.985 & 0.988 & 0.986 & 0.981 \\
240 & 0.3 & 0.956 & 0.956 & 0.940 & 0.912 & 0.948 & 0.929 \\
241 SF & 0.0 & 0.997 & 0.998 & 0.995 & 0.999 & 0.999 & 1.000 \\
242 & 0.1 & 1.001 & 0.997 & 0.997 & 0.999 & 0.996 & 0.996 \\
243 & 0.2 & 0.994 & 0.996 & 0.985 & 0.988 & 0.986 & 0.981 \\
244 & 0.3 & 0.956 & 0.956 & 0.940 & 0.912 & 0.948 & 0.929 \\
245 \bottomrule
246 \end{tabular}
247 \label{meltTab}
248 \end{table}
249
250 \begin{table}[htbp]
251 \centering
252 \caption{Variance results from Gaussian fits to angular distributions of the force vectors in the molten NaCl system. PC = Pure Cutoff, SP = Shifted Potential, and SF = Shifted Force.}
253 \begin{tabular}{@{} ccrrrrrr @{}}
254 \\
255 \toprule
256 & & \multicolumn{3}{c}{Force $\sigma^2$} \\
257 \cmidrule(lr){3-5}
258 \cmidrule(l){6-8}
259 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA \\
260 \midrule
261 PC & & 13.294 & 8.035 & 5.366 \\
262 SP & 0.0 & 13.316 & 8.037 & 5.385 \\
263 & 0.1 & 5.705 & 1.391 & 0.360 \\
264 & 0.2 & 2.415 & 7.534 & 13.927 \\
265 & 0.3 & 23.769 & 67.306 & 57.252 \\
266 SF & 0.0 & 1.693 & 0.603 & 0.256 \\
267 & 0.1 & 1.687 & 0.653 & 0.272 \\
268 & 0.2 & 2.598 & 7.523 & 13.930 \\
269 & 0.3 & 23.734 & 67.305 & 57.252 \\
270 \bottomrule
271 \end{tabular}
272 \label{meltTabAng}
273 \end{table}
274
275 \section{\label{app-salt}NaCl Crystal}
276
277 \begin{table}[htbp]
278 \centering
279 \caption{Regression results for the crystalline NaCl system. Tabulated results include $\Delta E$ values (top set) and force vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, and SF = Shifted Force.}
280 \begin{tabular}{@{} ccrrrrrr @{}}
281 \\
282 \toprule
283 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
284 \cmidrule(lr){3-4}
285 \cmidrule(lr){5-6}
286 \cmidrule(l){7-8}
287 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
288 \midrule
289 PC & & -20.241 & 0.228 & -20.248 & 0.229 & -20.239 & 0.228 \\
290 SP & 0.0 & 1.039 & 0.733 & 2.037 & 0.565 & 1.225 & 0.743 \\
291 & 0.1 & 1.049 & 0.865 & 1.424 & 0.784 & 1.029 & 0.980 \\
292 & 0.2 & 0.982 & 0.976 & 0.969 & 0.980 & 0.960 & 0.980 \\
293 & 0.3 & 0.873 & 0.944 & 0.872 & 0.945 & 0.872 & 0.945 \\
294 SF & 0.0 & 1.041 & 0.967 & 0.994 & 0.989 & 0.957 & 0.993 \\
295 & 0.1 & 1.050 & 0.968 & 0.996 & 0.991 & 0.972 & 0.995 \\
296 & 0.2 & 0.982 & 0.975 & 0.959 & 0.980 & 0.960 & 0.980 \\
297 & 0.3 & 0.873 & 0.944 & 0.872 & 0.945 & 0.872 & 0.944 \\
298 \midrule
299 PC & & 0.795 & 0.000 & 0.792 & 0.000 & 0.793 & 0.000 \\
300 SP & 0.0 & 0.916 & 0.829 & 1.086 & 0.791 & 1.010 & 0.936 \\
301 & 0.1 & 0.958 & 0.917 & 1.049 & 0.943 & 1.001 & 0.995 \\
302 & 0.2 & 0.981 & 0.981 & 0.982 & 0.984 & 0.981 & 0.984 \\
303 & 0.3 & 0.950 & 0.952 & 0.950 & 0.953 & 0.950 & 0.953 \\
304 SF & 0.0 & 1.002 & 0.983 & 0.997 & 0.994 & 0.991 & 0.997 \\
305 & 0.1 & 1.003 & 0.984 & 0.996 & 0.995 & 0.993 & 0.997 \\
306 & 0.2 & 0.983 & 0.980 & 0.981 & 0.984 & 0.981 & 0.984 \\
307 & 0.3 & 0.950 & 0.952 & 0.950 & 0.953 & 0.950 & 0.953 \\
308 \bottomrule
309 \end{tabular}
310 \label{saltTab}
311 \end{table}
312
313 \begin{table}[htbp]
314 \centering
315 \caption{Variance results from Gaussian fits to angular distributions of the force vectors in the crystalline NaCl system. PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, and RF = Reaction Field (where $\varepsilon \approx \infty$).}
316 \begin{tabular}{@{} ccrrrrrr @{}}
317 \\
318 \toprule
319 & & \multicolumn{3}{c}{Force $\sigma^2$} \\
320 \cmidrule(lr){3-5}
321 \cmidrule(l){6-8}
322 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA \\
323 \midrule
324 PC & & 111.945 & 111.824 & 111.866 \\
325 SP & 0.0 & 112.414 & 152.215 & 38.087 \\
326 & 0.1 & 52.361 & 42.574 & 2.819 \\
327 & 0.2 & 10.847 & 9.709 & 9.686 \\
328 & 0.3 & 31.128 & 31.104 & 31.029 \\
329 SF & 0.0 & 10.025 & 3.555 & 1.648 \\
330 & 0.1 & 9.462 & 3.303 & 1.721 \\
331 & 0.2 & 11.454 & 9.813 & 9.701 \\
332 & 0.3 & 31.120 & 31.105 & 31.029 \\
333 \bottomrule
334 \end{tabular}
335 \label{saltTabAng}
336 \end{table}
337
338 \section{\label{app-sol1}Weak NaCl Solution}
339
340 \begin{table}[htbp]
341 \centering
342 \caption{Regression results for the weak NaCl solution system. Tabulated results include $\Delta E$ values (top set), force vector magnitudes (middle set) and torque vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, RF = Reaction Field (where $\varepsilon \approx \infty$), GSSP = Group Switched Shifted Potential, and GSSF = Group Switched Shifted Force.}
343 \begin{tabular}{@{} ccrrrrrr @{}}
344 \\
345 \toprule
346 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
347 \cmidrule(lr){3-4}
348 \cmidrule(lr){5-6}
349 \cmidrule(l){7-8}
350 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
351 \midrule
352 PC & & 0.247 & 0.000 & -1.103 & 0.001 & 5.480 & 0.015 \\
353 SP & 0.0 & 0.935 & 0.388 & 0.984 & 0.541 & 1.010 & 0.685 \\
354 & 0.1 & 0.951 & 0.603 & 0.993 & 0.875 & 1.001 & 0.979 \\
355 & 0.2 & 0.969 & 0.968 & 0.996 & 0.997 & 0.994 & 0.997 \\
356 & 0.3 & 0.955 & 0.966 & 0.984 & 0.992 & 0.978 & 0.991 \\
357 SF & 0.0 & 0.963 & 0.971 & 0.989 & 0.996 & 0.991 & 0.998 \\
358 & 0.1 & 0.970 & 0.971 & 0.995 & 0.997 & 0.997 & 0.999 \\
359 & 0.2 & 0.972 & 0.975 & 0.996 & 0.997 & 0.994 & 0.997 \\
360 & 0.3 & 0.955 & 0.966 & 0.984 & 0.992 & 0.978 & 0.991 \\
361 GSC & & 0.964 & 0.731 & 0.984 & 0.704 & 1.005 & 0.770 \\
362 RF & & 0.968 & 0.605 & 0.974 & 0.541 & 1.014 & 0.614 \\
363 \midrule
364 PC & & 1.354 & 0.000 & -1.190 & 0.000 & -0.314 & 0.000 \\
365 SP & 0.0 & 0.720 & 0.338 & 0.808 & 0.523 & 0.860 & 0.643 \\
366 & 0.1 & 0.839 & 0.583 & 0.955 & 0.882 & 0.992 & 0.978 \\
367 & 0.2 & 0.995 & 0.987 & 0.999 & 1.000 & 0.999 & 1.000 \\
368 & 0.3 & 0.995 & 0.996 & 0.996 & 0.998 & 0.996 & 0.998 \\
369 SF & 0.0 & 0.998 & 0.994 & 1.000 & 0.998 & 1.000 & 0.999 \\
370 & 0.1 & 0.997 & 0.994 & 1.000 & 0.999 & 1.000 & 1.000 \\
371 & 0.2 & 0.999 & 0.998 & 0.999 & 1.000 & 0.999 & 1.000 \\
372 & 0.3 & 0.995 & 0.996 & 0.996 & 0.998 & 0.996 & 0.998 \\
373 GSC & & 0.995 & 0.990 & 0.998 & 0.997 & 0.998 & 0.996 \\
374 RF & & 0.998 & 0.993 & 0.999 & 0.998 & 0.999 & 0.996 \\
375 \midrule
376 PC & & 2.437 & 0.000 & -1.872 & 0.000 & 2.138 & 0.000 \\
377 SP & 0.0 & 0.838 & 0.525 & 0.901 & 0.686 & 0.932 & 0.779 \\
378 & 0.1 & 0.914 & 0.733 & 0.979 & 0.932 & 0.995 & 0.987 \\
379 & 0.2 & 0.977 & 0.969 & 0.988 & 0.990 & 0.989 & 0.990 \\
380 & 0.3 & 0.952 & 0.950 & 0.964 & 0.971 & 0.965 & 0.970 \\
381 SF & 0.0 & 0.969 & 0.977 & 0.987 & 0.996 & 0.993 & 0.998 \\
382 & 0.1 & 0.975 & 0.978 & 0.993 & 0.996 & 0.997 & 0.998 \\
383 & 0.2 & 0.976 & 0.973 & 0.988 & 0.990 & 0.989 & 0.990 \\
384 & 0.3 & 0.952 & 0.950 & 0.964 & 0.971 & 0.965 & 0.970 \\
385 GSC & & 0.980 & 0.959 & 0.990 & 0.983 & 0.992 & 0.989 \\
386 RF & & 0.984 & 0.975 & 0.996 & 0.995 & 0.998 & 0.998 \\
387 \bottomrule
388 \end{tabular}
389 \label{sol1Tab}
390 \end{table}
391
392 \begin{table}[htbp]
393 \centering
394 \caption{Variance results from Gaussian fits to angular distributions of the force and torque vectors in the weak NaCl solution system. PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, RF = Reaction Field (where $\varepsilon \approx \infty$), GSSP = Group Switched Shifted Potential, and GSSF = Group Switched Shifted Force.}
395 \begin{tabular}{@{} ccrrrrrr @{}}
396 \\
397 \toprule
398 & & \multicolumn{3}{c}{Force $\sigma^2$} & \multicolumn{3}{c}{Torque $\sigma^2$} \\
399 \cmidrule(lr){3-5}
400 \cmidrule(l){6-8}
401 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA & 9 \AA & 12 \AA & 15 \AA \\
402 \midrule
403 PC & & 882.863 & 510.435 & 344.201 & 277.691 & 154.231 & 100.131 \\
404 SP & 0.0 & 732.569 & 405.704 & 257.756 & 261.445 & 142.245 & 91.497 \\
405 & 0.1 & 329.031 & 70.746 & 12.014 & 118.496 & 25.218 & 4.711 \\
406 & 0.2 & 6.772 & 0.153 & 0.118 & 9.780 & 2.101 & 2.102 \\
407 & 0.3 & 0.951 & 0.774 & 0.784 & 12.108 & 7.673 & 7.851 \\
408 SF & 0.0 & 2.555 & 0.762 & 0.313 & 6.590 & 1.328 & 0.558 \\
409 & 0.1 & 2.561 & 0.560 & 0.123 & 6.464 & 1.162 & 0.457 \\
410 & 0.2 & 0.501 & 0.118 & 0.118 & 5.698 & 2.074 & 2.099 \\
411 & 0.3 & 0.943 & 0.774 & 0.784 & 12.118 & 7.674 & 7.851 \\
412 GSC & & 2.915 & 0.643 & 0.261 & 9.576 & 3.133 & 1.812 \\
413 RF & & 2.415 & 0.452 & 0.130 & 6.915 & 1.423 & 0.507 \\
414 \midrule
415 GSSP & 0.0 & 2.915 & 0.643 & 0.261 & 9.576 & 3.133 & 1.812 \\
416 & 0.1 & 2.251 & 0.324 & 0.064 & 7.628 & 1.639 & 0.497 \\
417 & 0.2 & 0.590 & 0.118 & 0.116 & 6.080 & 2.096 & 2.103 \\
418 & 0.3 & 0.953 & 0.759 & 0.780 & 12.347 & 7.683 & 7.849 \\
419 GSSF & 0.0 & 1.541 & 0.301 & 0.096 & 6.407 & 1.316 & 0.496 \\
420 & 0.1 & 1.541 & 0.237 & 0.050 & 6.356 & 1.202 & 0.457 \\
421 & 0.2 & 0.568 & 0.118 & 0.116 & 6.166 & 2.105 & 2.105 \\
422 & 0.3 & 0.954 & 0.759 & 0.780 & 12.337 & 7.684 & 7.849 \\
423 \bottomrule
424 \end{tabular}
425 \label{sol1TabAng}
426 \end{table}
427
428 \section{\label{app-sol10}Strong NaCl Solution}
429
430 \begin{table}[htbp]
431 \centering
432 \caption{Regression results for the strong NaCl solution system. Tabulated results include $\Delta E$ values (top set), force vector magnitudes (middle set) and torque vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, and RF = Reaction Field (where $\varepsilon \approx \infty$).}
433 \begin{tabular}{@{} ccrrrrrr @{}}
434 \\
435 \toprule
436 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
437 \cmidrule(lr){3-4}
438 \cmidrule(lr){5-6}
439 \cmidrule(l){7-8}
440 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
441 \midrule
442 PC & & -0.081 & 0.000 & 0.945 & 0.001 & 0.073 & 0.000 \\
443 SP & 0.0 & 0.978 & 0.469 & 0.996 & 0.672 & 0.975 & 0.668 \\
444 & 0.1 & 0.944 & 0.645 & 0.997 & 0.886 & 0.991 & 0.978 \\
445 & 0.2 & 0.873 & 0.896 & 0.985 & 0.993 & 0.980 & 0.993 \\
446 & 0.3 & 0.831 & 0.860 & 0.960 & 0.979 & 0.955 & 0.977 \\
447 SF & 0.0 & 0.858 & 0.905 & 0.985 & 0.970 & 0.990 & 0.998 \\
448 & 0.1 & 0.865 & 0.907 & 0.992 & 0.974 & 0.994 & 0.999 \\
449 & 0.2 & 0.862 & 0.894 & 0.985 & 0.993 & 0.980 & 0.993 \\
450 & 0.3 & 0.831 & 0.859 & 0.960 & 0.979 & 0.955 & 0.977 \\
451 GSC & & 1.985 & 0.152 & 0.760 & 0.031 & 1.106 & 0.062 \\
452 RF & & 2.414 & 0.116 & 0.813 & 0.017 & 1.434 & 0.047 \\
453 \midrule
454 PC & & -7.028 & 0.000 & -9.364 & 0.000 & 0.925 & 0.865 \\
455 SP & 0.0 & 0.701 & 0.319 & 0.909 & 0.773 & 0.861 & 0.665 \\
456 & 0.1 & 0.824 & 0.565 & 0.970 & 0.930 & 0.990 & 0.979 \\
457 & 0.2 & 0.988 & 0.981 & 0.995 & 0.998 & 0.991 & 0.998 \\
458 & 0.3 & 0.983 & 0.985 & 0.985 & 0.991 & 0.978 & 0.990 \\
459 SF & 0.0 & 0.993 & 0.988 & 0.992 & 0.984 & 0.998 & 0.999 \\
460 & 0.1 & 0.993 & 0.989 & 0.993 & 0.986 & 0.998 & 1.000 \\
461 & 0.2 & 0.993 & 0.992 & 0.995 & 0.998 & 0.991 & 0.998 \\
462 & 0.3 & 0.983 & 0.985 & 0.985 & 0.991 & 0.978 & 0.990 \\
463 GSC & & 0.964 & 0.897 & 0.970 & 0.917 & 0.925 & 0.865 \\
464 RF & & 0.994 & 0.864 & 0.988 & 0.865 & 0.980 & 0.784 \\
465 \midrule
466 PC & & -2.212 & 0.000 & -0.588 & 0.000 & 0.953 & 0.925 \\
467 SP & 0.0 & 0.800 & 0.479 & 0.930 & 0.804 & 0.924 & 0.759 \\
468 & 0.1 & 0.883 & 0.694 & 0.976 & 0.942 & 0.993 & 0.986 \\
469 & 0.2 & 0.952 & 0.943 & 0.980 & 0.984 & 0.980 & 0.983 \\
470 & 0.3 & 0.914 & 0.909 & 0.943 & 0.948 & 0.944 & 0.946 \\
471 SF & 0.0 & 0.945 & 0.953 & 0.980 & 0.984 & 0.991 & 0.998 \\
472 & 0.1 & 0.951 & 0.954 & 0.987 & 0.986 & 0.995 & 0.998 \\
473 & 0.2 & 0.951 & 0.946 & 0.980 & 0.984 & 0.980 & 0.983 \\
474 & 0.3 & 0.914 & 0.908 & 0.943 & 0.948 & 0.944 & 0.946 \\
475 GSC & & 0.882 & 0.818 & 0.939 & 0.902 & 0.953 & 0.925 \\
476 RF & & 0.949 & 0.939 & 0.988 & 0.988 & 0.992 & 0.993 \\
477 \bottomrule
478 \end{tabular}
479 \label{sol10Tab}
480 \end{table}
481
482 \begin{table}[htbp]
483 \centering
484 \caption{Variance results from Gaussian fits to angular distributions of the force and torque vectors in the strong NaCl solution system. PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, RF = Reaction Field (where $\varepsilon \approx \infty$), GSSP = Group Switched Shifted Potential, and GSSF = Group Switched Shifted Force.}
485 \begin{tabular}{@{} ccrrrrrr @{}}
486 \\
487 \toprule
488 & & \multicolumn{3}{c}{Force $\sigma^2$} & \multicolumn{3}{c}{Torque $\sigma^2$} \\
489 \cmidrule(lr){3-5}
490 \cmidrule(l){6-8}
491 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA & 9 \AA & 12 \AA & 15 \AA \\
492 \midrule
493 PC & & 957.784 & 513.373 & 2.260 & 340.043 & 179.443 & 13.079 \\
494 SP & 0.0 & 786.244 & 139.985 & 259.289 & 311.519 & 90.280 & 105.187 \\
495 & 0.1 & 354.697 & 38.614 & 12.274 & 144.531 & 23.787 & 5.401 \\
496 & 0.2 & 7.674 & 0.363 & 0.215 & 16.655 & 3.601 & 3.634 \\
497 & 0.3 & 1.745 & 1.456 & 1.449 & 23.669 & 14.376 & 14.240 \\
498 SF & 0.0 & 3.282 & 8.567 & 0.369 & 11.904 & 6.589 & 0.717 \\
499 & 0.1 & 3.263 & 7.479 & 0.142 & 11.634 & 5.750 & 0.591 \\
500 & 0.2 & 0.686 & 0.324 & 0.215 & 10.809 & 3.580 & 3.635 \\
501 & 0.3 & 1.749 & 1.456 & 1.449 & 23.635 & 14.375 & 14.240 \\
502 GSC & & 6.181 & 2.904 & 2.263 & 44.349 & 19.442 & 12.873 \\
503 RF & & 3.891 & 0.847 & 0.323 & 18.628 & 3.995 & 2.072 \\
504 \midrule
505 GSSP & 0.0 & 6.197 & 2.929 & 2.290 & 44.441 & 19.442 & 12.873 \\
506 & 0.1 & 4.688 & 1.064 & 0.260 & 31.208 & 6.967 & 2.303 \\
507 & 0.2 & 1.021 & 0.218 & 0.213 & 14.425 & 3.629 & 3.649 \\
508 & 0.3 & 1.752 & 1.454 & 1.451 & 23.540 & 14.390 & 14.245 \\
509 GSSF & 0.0 & 2.494 & 0.546 & 0.217 & 16.391 & 3.230 & 1.613 \\
510 & 0.1 & 2.448 & 0.429 & 0.106 & 16.390 & 2.827 & 1.159 \\
511 & 0.2 & 0.899 & 0.214 & 0.213 & 13.542 & 3.583 & 3.645 \\
512 & 0.3 & 1.752 & 1.454 & 1.451 & 23.587 & 14.390 & 14.245 \\
513 \bottomrule
514 \end{tabular}
515 \label{sol10TabAng}
516 \end{table}
517
518 \section{\label{app-argon}Argon Sphere in Water}
519
520 \begin{table}[htbp]
521 \centering
522 \caption{Regression results for the 6 \AA\ argon sphere in liquid water system. Tabulated results include $\Delta E$ values (top set), force vector magnitudes (middle set) and torque vector magnitudes (bottom set). PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, and RF = Reaction Field (where $\varepsilon \approx \infty$).}
523 \begin{tabular}{@{} ccrrrrrr @{}}
524 \\
525 \toprule
526 & & \multicolumn{2}{c}{9 \AA} & \multicolumn{2}{c}{12 \AA} & \multicolumn{2}{c}{15 \AA}\\
527 \cmidrule(lr){3-4}
528 \cmidrule(lr){5-6}
529 \cmidrule(l){7-8}
530 Method & $\alpha$ & slope & $R^2$ & slope & $R^2$ & slope & $R^2$ \\
531 \midrule
532 PC & & 2.320 & 0.008 & -0.650 & 0.001 & 3.848 & 0.029 \\
533 SP & 0.0 & 1.053 & 0.711 & 0.977 & 0.820 & 0.974 & 0.882 \\
534 & 0.1 & 1.032 & 0.846 & 0.989 & 0.965 & 0.992 & 0.994 \\
535 & 0.2 & 0.993 & 0.995 & 0.982 & 0.998 & 0.986 & 0.998 \\
536 & 0.3 & 0.968 & 0.995 & 0.954 & 0.992 & 0.961 & 0.994 \\
537 SF & 0.0 & 0.982 & 0.996 & 0.992 & 0.999 & 0.993 & 1.000 \\
538 & 0.1 & 0.987 & 0.996 & 0.996 & 0.999 & 0.997 & 1.000 \\
539 & 0.2 & 0.989 & 0.998 & 0.984 & 0.998 & 0.989 & 0.998 \\
540 & 0.3 & 0.971 & 0.995 & 0.957 & 0.992 & 0.965 & 0.994 \\
541 GSC & & 1.002 & 0.983 & 0.992 & 0.973 & 0.996 & 0.971 \\
542 RF & & 0.998 & 0.995 & 0.999 & 0.998 & 0.998 & 0.998 \\
543 \midrule
544 PC & & -36.559 & 0.002 & -44.917 & 0.004 & -52.945 & 0.006 \\
545 SP & 0.0 & 0.890 & 0.786 & 0.927 & 0.867 & 0.949 & 0.909 \\
546 & 0.1 & 0.942 & 0.895 & 0.984 & 0.974 & 0.997 & 0.995 \\
547 & 0.2 & 0.999 & 0.997 & 1.000 & 1.000 & 1.000 & 1.000 \\
548 & 0.3 & 1.001 & 0.999 & 1.001 & 1.000 & 1.001 & 1.000 \\
549 SF & 0.0 & 1.000 & 0.999 & 1.000 & 1.000 & 1.000 & 1.000 \\
550 & 0.1 & 1.000 & 0.999 & 1.000 & 1.000 & 1.000 & 1.000 \\
551 & 0.2 & 1.000 & 1.000 & 1.000 & 1.000 & 1.000 & 1.000 \\
552 & 0.3 & 1.001 & 0.999 & 1.001 & 1.000 & 1.001 & 1.000 \\
553 GSC & & 0.999 & 0.999 & 1.000 & 1.000 & 1.000 & 1.000 \\
554 RF & & 0.999 & 0.999 & 1.000 & 1.000 & 1.000 & 1.000 \\
555 \midrule
556 PC & & 1.984 & 0.000 & 0.012 & 0.000 & 1.357 & 0.000 \\
557 SP & 0.0 & 0.850 & 0.552 & 0.907 & 0.703 & 0.938 & 0.793 \\
558 & 0.1 & 0.924 & 0.755 & 0.980 & 0.936 & 0.995 & 0.988 \\
559 & 0.2 & 0.985 & 0.983 & 0.986 & 0.988 & 0.987 & 0.988 \\
560 & 0.3 & 0.961 & 0.966 & 0.959 & 0.964 & 0.960 & 0.966 \\
561 SF & 0.0 & 0.977 & 0.989 & 0.987 & 0.995 & 0.992 & 0.998 \\
562 & 0.1 & 0.982 & 0.989 & 0.992 & 0.996 & 0.997 & 0.998 \\
563 & 0.2 & 0.984 & 0.987 & 0.986 & 0.987 & 0.987 & 0.988 \\
564 & 0.3 & 0.961 & 0.966 & 0.959 & 0.964 & 0.960 & 0.966 \\
565 GSC & & 0.995 & 0.981 & 0.999 & 0.990 & 1.000 & 0.993 \\
566 RF & & 0.993 & 0.988 & 0.997 & 0.995 & 0.999 & 0.998 \\
567 \bottomrule
568 \end{tabular}
569 \label{argonTab}
570 \end{table}
571
572 \begin{table}[htbp]
573 \centering
574 \caption{Variance results from Gaussian fits to angular distributions of the force and torque vectors in the 6 \AA\ sphere of argon in liquid water system. PC = Pure Cutoff, SP = Shifted Potential, SF = Shifted Force, GSC = Group Switched Cutoff, RF = Reaction Field (where $\varepsilon \approx \infty$), GSSP = Group Switched Shifted Potential, and GSSF = Group Switched Shifted Force.}
575 \begin{tabular}{@{} ccrrrrrr @{}}
576 \\
577 \toprule
578 & & \multicolumn{3}{c}{Force $\sigma^2$} & \multicolumn{3}{c}{Torque $\sigma^2$} \\
579 \cmidrule(lr){3-5}
580 \cmidrule(l){6-8}
581 Method & $\alpha$ & 9 \AA & 12 \AA & 15 \AA & 9 \AA & 12 \AA & 15 \AA \\
582 \midrule
583 PC & & 568.025 & 265.993 & 195.099 & 246.626 & 138.600 & 91.654 \\
584 SP & 0.0 & 504.578 & 251.694 & 179.932 & 231.568 & 131.444 & 85.119 \\
585 & 0.1 & 224.886 & 49.746 & 9.346 & 104.482 & 23.683 & 4.480 \\
586 & 0.2 & 4.889 & 0.197 & 0.155 & 6.029 & 2.507 & 2.269 \\
587 & 0.3 & 0.817 & 0.833 & 0.812 & 8.286 & 8.436 & 8.135 \\
588 SF & 0.0 & 1.924 & 0.675 & 0.304 & 3.658 & 1.448 & 0.600 \\
589 & 0.1 & 1.937 & 0.515 & 0.143 & 3.565 & 1.308 & 0.546 \\
590 & 0.2 & 0.407 & 0.166 & 0.156 & 3.086 & 2.501 & 2.274 \\
591 & 0.3 & 0.815 & 0.833 & 0.812 & 8.330 & 8.437 & 8.135 \\
592 GSC & & 2.098 & 0.584 & 0.284 & 5.391 & 2.414 & 1.501 \\
593 RF & & 1.822 & 0.408 & 0.142 & 3.799 & 1.362 & 0.550 \\
594 \midrule
595 GSSP & 0.0 & 2.098 & 0.584 & 0.284 & 5.391 & 2.414 & 1.501 \\
596 & 0.1 & 1.652 & 0.309 & 0.087 & 4.197 & 1.401 & 0.590 \\
597 & 0.2 & 0.465 & 0.165 & 0.153 & 3.323 & 2.529 & 2.273 \\
598 & 0.3 & 0.813 & 0.825 & 0.816 & 8.316 & 8.447 & 8.132 \\
599 GSSF & 0.0 & 1.173 & 0.292 & 0.113 & 3.452 & 1.347 & 0.583 \\
600 & 0.1 & 1.166 & 0.240 & 0.076 & 3.381 & 1.281 & 0.575 \\
601 & 0.2 & 0.459 & 0.165 & 0.153 & 3.430 & 2.542 & 2.273 \\
602 & 0.3 & 0.814 & 0.825 & 0.816 & 8.325 & 8.447 & 8.132 \\
603 \bottomrule
604 \end{tabular}
605 \label{argonTabAng}
606 \end{table}
607
608 \end{document}