\documentstyle{l-aa} \begin{document} \begin{table*} \caption[]{Observed and calculated F {\sc ii}, Ne {\sc iii} and Na {\sc iv} target ion energies in cm$^{-1}$} \begin{flushleft} \begin{tabular}{cccc} \begin{tabular}{rrr} \multicolumn{1}{c}{F {\sc ii}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0.0& 0.0\\ 2p$^4$ $^3$P$^e_1$ & 341.0& 340.2\\ 2p$^4$ $^3$P$^e_0$ & 489.9& 490.2\\ 2p$^4$ $^1$D$^e_2$ & 20873.4& 21241.8\\ 2p$^4$ $^1$S$^e_0$ & 44918.1& 47294.6\\ 2s2p$^5$ $^3$P$^o_2$ & 164797.9& 168675.4\\ 2s2p$^5$ $^3$P$^o_1$ & 165106.7& 168998.5\\ 2s2p$^5$ $^3$P$^o_0$ & 165279.2& 169161.1\\ 2s2p$^5$ $^1$P$^o_1$ & 239605.3& 244417.6\\ 2p$^6$ $^1$S$^e_0$ & \multicolumn{1}{c}{---}& 412112.7\\ \end{tabular} & \begin{tabular}{rrr} \multicolumn{1}{c}{Ne {\sc iii}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0.0& 0.0\\ 2p$^4$ $^3$P$^e_1$ & 642.9& 637.2\\ 2p$^4$ $^3$P$^e_0$ & 920.4& 915.6\\ 2p$^4$ $^1$D$^e_2$ & 25840.8& 26101.3\\ 2p$^4$ $^1$S$^e_0$ & 55750.6& 57900.8\\ 2s2p$^5$ $^3$P$^o_2$ & 204290.0& 208768.9\\ 2s2p$^5$ $^3$P$^o_1$ & 204876.0& 209373.1\\ 2s2p$^5$ $^3$P$^o_0$ & 205199.0& 209678.3\\ 2s2p$^5$ $^1$P$^o_1$ & 289479.0& 299225.7\\ 2p$^6$ $^1$S$^e_0$ & \multicolumn{1}{c}{---}& 507714.2\\ \end{tabular} & \begin{tabular}{rrr} \multicolumn{1}{c}{Na {\sc iv}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 1106& 1095\\ 2p$^4$ $^3$P$^e_0$ & 1576& 1565\\ 2p$^4$ $^1$D$^e_2$ & 30840& 31046\\ 2p$^4$ $^1$S$^e_0$ & 66496& 68575\\ 2s2p$^5$ $^3$P$^o_2$ & 243682& 249664\\ 2s2p$^5$ $^3$P$^o_1$ & 244688& 250698\\ 2s2p$^5$ $^3$P$^o_0$ & 245239& 251223\\ 2s2p$^5$ $^1$P$^o_1$ & 343688& 354386\\ 2p$^6$ $^1$S$^e_0$ & 570823 & 604182\\ \end{tabular} \\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Observed and calculated Mg {\sc v}, Al {\sc vi} and Si {\sc vii} target ion energies in cm$^{-1}$} \begin{flushleft} \begin{tabular}{ccc} \begin{tabular}{rrr} \multicolumn{1}{c}{Mg {\sc v}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0.0& 0.0\\ 2p$^4$ $^3$P$^e_1$ & 1783.1& 1762.4\\ 2p$^4$ $^3$P$^e_0$ & 2521.8& 2502.3\\ 2p$^4$ $^1$D$^e_2$ & 35926.0& 36098.3\\ 2p$^4$ $^1$S$^e_0$ & 77279.0& 79358.1\\ 2s2p$^5$ $^3$P$^o_2$ & 283212.3& 291501.2\\ 2s2p$^5$ $^3$P$^o_1$ & 284828.3& 293158.0\\ 2s2p$^5$ $^3$P$^o_0$ & 285712.0& 294004.3\\ 2s2p$^5$ $^1$P$^o_1$ & 397482.0& 410328.8\\ 2p$^6$ $^1$S$^e_0$ & 662970.0& 702010.3\\ \end{tabular} & \begin{tabular}{rrr} \multicolumn{1}{c}{Al {\sc vi}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 2732& 2701\\ 2p$^4$ $^3$P$^e_0$ & 3829& 3797\\ 2p$^4$ $^1$D$^e_2$ & 41167& 41307\\ 2p$^4$ $^1$S$^e_0$ & 88213& 90337\\ 2s2p$^5$ $^3$P$^o_2$ & 323002& 334511\\ 2s2p$^5$ $^3$P$^o_1$ & 325469& 337032\\ 2s2p$^5$ $^3$P$^o_0$ & 326815& 338329\\ 2s2p$^5$ $^1$P$^o_1$ & 451396& 467362\\ 2p$^6$ $^1$S$^e_0$ & 755628& 801928\\ \end{tabular} & \begin{tabular}{rrr} \multicolumn{1}{c}{Si {\sc vii}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 4030& 3976\\ 2p$^4$ $^3$P$^e_0$ & 5565& 5520\\ 2p$^4$ $^1$D$^e_2$ & 46570& 46714\\ 2p$^4$ $^1$S$^e_0$ & 99341& 101554\\ 2s2p$^5$ $^3$P$^o_2$ & 363170& 378939\\ 2s2p$^5$ $^3$P$^o_1$ & 366786& 382615\\ 2s2p$^5$ $^3$P$^o_0$ & 368761& 384526\\ 2s2p$^5$ $^1$P$^o_1$ & 505650& 525873\\ 2p$^6$ $^1$S$^e_0$ & 849057& 904558\\ \end{tabular} \\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Observed and calculated P {\sc viii}, S {\sc ix} and Cl {\sc x} target ion energies in cm$^{-1}$} \begin{flushleft} \begin{tabular}{ccc} \begin{tabular}{rrr} \multicolumn{1}{c}{P {\sc viii}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 5760& 5672\\ 2p$^4$ $^3$P$^e_0$ & 7822& 7750\\ 2p$^4$ $^1$D$^e_2$ & 52256& 52399\\ 2p$^4$ $^1$S$^e_0$ & 110786& 113172\\ 2s2p$^5$ $^3$P$^o_2$ & 403803& 425094\\ 2s2p$^5$ $^3$P$^o_1$ & 408906& 430277\\ 2s2p$^5$ $^3$P$^o_0$ & 411736& 433002\\ 2s2p$^5$ $^1$P$^o_1$ & 560501& 586199\\ 2p$^6$ $^1$S$^e_0$ &943569&1010435\\ \end{tabular} & \begin{tabular}{rrr} \multicolumn{1}{c}{S {\sc ix}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 7985& 7872\\ 2p$^4$ $^3$P$^e_0$ & 10648& 10554\\ 2p$^4$ $^1$D$^e_2$ & 58294& 58417\\ 2p$^4$ $^1$S$^e_0$ & 122700& 125238\\ 2s2p$^5$ $^3$P$^o_2$ & 444987& 473211\\ 2s2p$^5$ $^3$P$^o_1$ & 451995& 480307\\ 2s2p$^5$ $^3$P$^o_0$ & 455890& 484090\\ 2s2p$^5$ $^1$P$^o_1$ & \multicolumn{1}{c}{---}& 648642\\ 2p$^6$ $^1$S$^e_0$ &1039219&1120187\\ \end{tabular} & \begin{tabular}{rrr} \multicolumn{1}{c}{Cl {\sc x}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 10880& 10686\\ 2p$^4$ $^3$P$^e_0$ & 14130& 14006\\ 2p$^4$ $^1$D$^e_2$ & 61000& 64887\\ 2p$^4$ $^1$S$^e_0$ & 130310& 137952\\ 2s2p$^5$ $^3$P$^o_2$ & 486850& 523708\\ 2s2p$^5$ $^3$P$^o_1$ & 496260& 533188\\ 2s2p$^5$ $^3$P$^o_0$ & 501510& 538323\\ 2s2p$^5$ $^1$P$^o_1$ & 668850& 713708\\ 2p$^6$ $^1$S$^e_0$ &\multicolumn{1}{c}{---}&1234706\\ \end{tabular} \\ \end{tabular} \end{flushleft} \end{table*} \begin{table} \caption[]{Observed and calculated Ar {\sc xi} target ion energies in cm$^{-1}$} \begin{flushleft} \begin{tabular}{rrr} \multicolumn{1}{c}{Ar {\sc xi}}&\multicolumn{1}{c}{Obs.}&\multicolumn{1}{c}{Calc.}\\ 2p$^4$ $^3$P$^e_2$ & 0& 0\\ 2p$^4$ $^3$P$^e_1$ & 14456& 14230\\ 2p$^4$ $^3$P$^e_0$ & 18274& 18162\\ 2p$^4$ $^1$D$^e_2$ & 71907& 71914\\ 2p$^4$ $^1$S$^e_0$ & 148513& 151495\\ 2s2p$^5$ $^3$P$^o_2$ & 529605& 576940\\ 2s2p$^5$ $^3$P$^o_1$ & 541976& 589338\\ 2s2p$^5$ $^3$P$^o_0$ & 548987& 596179\\ 2s2p$^5$ $^1$P$^o_1$ & 730452& 781827\\ 2p$^6$ $^1$S$^e_0$ &\multicolumn{1}{c}{---}&1354663\\ \end{tabular} \end{flushleft} \end{table} \begin{table*} \caption[]{\label{coltab1}Effective collision strengths for F {\sc ii} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .265& .174& .723& .154& .462& .771& .015& .044& .073& .363\\ 3.2& .253& .166& .690& .149& .446& .744& .015& .044& .073& .362\\ 3.4& .239& .158& .653& .142& .427& .712& .015& .044& .073& .361\\ 3.6& .224& .151& .620& .137& .412& .687& .015& .044& .073& .358\\ 3.8& .213& .150& .602& .135& .405& .675& .015& .044& .074& .354\\ 4.0& .206& .152& .600& .135& .405& .675& .015& .045& .075& .348\\ 4.2& .202& .156& .605& .137& .410& .683& .015& .046& .077& .342\\ 4.4& .201& .160& .612& .140& .419& .699& .016& .047& .079& .338\\ 4.6& .204& .165& .627& .145& .434& .724& .016& .049& .082& .339\\ 4.8& .214& .175& .661& .152& .455& .758& .017& .052& .087& .347\\ 5.0& .233& .191& .721& .160& .481& .801& .019& .056& .093& .358\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for Ne {\sc iii} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .154& .128& .481& .150& .450& .749& .017& .050& .083& .266\\ 3.2& .168& .149& .545& .153& .459& .765& .017& .050& .083& .266\\ 3.4& .194& .174& .634& .154& .462& .771& .017& .050& .083& .266\\ 3.6& .218& .194& .708& .153& .460& .767& .017& .050& .083& .266\\ 3.8& .235& .204& .752& .152& .456& .760& .017& .050& .084& .267\\ 4.0& .244& .208& .774& .151& .452& .754& .017& .050& .084& .269\\ 4.2& .247& .208& .778& .150& .449& .749& .017& .050& .084& .277\\ 4.4& .247& .205& .771& .149& .448& .746& .017& .051& .086& .292\\ 4.6& .246& .203& .764& .150& .449& .749& .018& .054& .090& .310\\ 4.8& .249& .205& .773& .153& .458& .763& .019& .057& .095& .325\\ 5.0& .256& .211& .794& .156& .469& .782& .020& .060& .100& .333\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for Na {\sc iv} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .238& .178& .699& .122& .365& .609& .020& .061& .101& .208\\ 3.2& .251& .194& .751& .123& .368& .614& .020& .060& .101& .208\\ 3.4& .261& .202& .782& .123& .368& .613& .020& .060& .100& .208\\ 3.6& .266& .203& .790& .121& .362& .603& .020& .060& .099& .208\\ 3.8& .269& .202& .791& .119& .357& .595& .020& .059& .099& .208\\ 4.0& .273& .205& .802& .122& .366& .610& .020& .059& .099& .211\\ 4.2& .279& .213& .827& .130& .389& .649& .020& .060& .100& .218\\ 4.4& .283& .221& .851& .139& .417& .695& .020& .061& .101& .227\\ 4.6& .283& .225& .861& .147& .440& .733& .020& .061& .102& .239\\ 4.8& .283& .233& .878& .151& .454& .756& .020& .061& .102& .254\\ 5.0& .286& .250& .919& .153& .458& .763& .020& .061& .102& .271\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for Mg {\sc v} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .192& .116& .501& .145& .436& .727& .014& .042& .071& .181\\ 3.2& .191& .121& .510& .144& .432& .720& .015& .045& .076& .182\\ 3.4& .197& .136& .554& .144& .432& .720& .017& .050& .083& .182\\ 3.6& .215& .163& .637& .145& .434& .723& .018& .054& .090& .182\\ 3.8& .245& .197& .748& .145& .435& .726& .018& .055& .092& .181\\ 4.0& .276& .225& .852& .146& .439& .732& .018& .055& .091& .182\\ 4.2& .296& .240& .908& .148& .445& .742& .018& .053& .088& .186\\ 4.4& .302& .246& .932& .148& .445& .742& .017& .051& .085& .199\\ 4.6& .307& .262& .974& .145& .435& .726& .017& .050& .084& .221\\ 4.8& .311& .284&1.029& .140& .421& .701& .017& .050& .084& .251\\ 5.0& .311& .297&1.058& .135& .406& .676& .017& .050& .084& .278\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for Al {\sc vi} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0&0.950&2.011&5.713&0.133&0.400&0.666&0.010&0.030&0.049&0.258\\ 3.2&0.936&1.899&5.442&0.136&0.409&0.682&0.010&0.030&0.051&0.301\\ 3.4&0.993&1.856&5.419&0.135&0.405&0.676&0.011&0.034&0.056&0.366\\ 3.6&1.081&1.833&5.475&0.133&0.398&0.663&0.013&0.039&0.065&0.418\\ 3.8&1.111&1.725&5.271&0.130&0.390&0.650&0.015&0.044&0.074&0.429\\ 4.0&1.041&1.498&4.673&0.126&0.378&0.631&0.016&0.047&0.078&0.417\\ 4.2&0.897&1.204&3.831&0.121&0.363&0.606&0.016&0.048&0.080&0.425\\ 4.4&0.730&0.914&2.969&0.116&0.348&0.580&0.016&0.048&0.081&0.463\\ 4.6&0.578&0.675&2.242&0.112&0.336&0.561&0.016&0.048&0.080&0.487\\ 4.8&0.462&0.504&1.711&0.110&0.329&0.548&0.016&0.047&0.079&0.471\\ 5.0&0.381&0.395&1.365&0.107&0.322&0.537&0.015&0.046&0.077&0.427\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for Si {\sc vii} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .133& .066& .314& .164& .493& .821& .011& .034& .057& .088\\ 3.2& .141& .074& .344& .157& .472& .787& .011& .034& .057& .089\\ 3.4& .154& .084& .383& .148& .445& .742& .012& .035& .058& .089\\ 3.6& .167& .092& .417& .138& .414& .689& .013& .038& .063& .090\\ 3.8& .176& .098& .441& .127& .381& .636& .014& .041& .069& .091\\ 4.0& .182& .104& .461& .117& .352& .587& .015& .044& .073& .092\\ 4.2& .188& .112& .485& .110& .329& .548& .015& .044& .074& .094\\ 4.4& .192& .122& .514& .103& .310& .517& .014& .043& .071& .097\\ 4.6& .199& .138& .558& .099& .296& .493& .014& .041& .068& .106\\ 4.8& .208& .163& .627& .095& .284& .474& .013& .039& .065& .123\\ 5.0& .217& .188& .695& .091& .274& .457& .012& .037& .062& .149\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for P {\sc viii} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .146& .089& .384& .073& .218& .363& .010& .029& .048& .091\\ 3.2& .149& .093& .395& .075& .224& .373& .010& .029& .048& .091\\ 3.4& .158& .107& .438& .078& .234& .391& .010& .029& .048& .091\\ 3.6& .182& .137& .536& .082& .246& .410& .010& .029& .049& .091\\ 3.8& .223& .173& .668& .084& .253& .422& .010& .030& .050& .094\\ 4.0& .263& .200& .778& .085& .254& .423& .010& .031& .051& .100\\ 4.2& .292& .217& .853& .083& .249& .415& .010& .031& .052& .110\\ 4.4& .308& .243& .931& .081& .242& .403& .010& .031& .052& .125\\ 4.6& .309& .274&1.002& .079& .236& .393& .010& .031& .052& .147\\ 4.8& .294& .287&1.014& .077& .230& .384& .010& .031& .052& .177\\ 5.0& .268& .278& .960& .075& .225& .375& .010& .031& .051& .259\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for S {\sc ix} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0&0.244&0.263&0.892&0.204&0.611&1.018&0.008&0.024&0.040&0.085\\ 3.2&0.270&0.425&1.290&0.207&0.622&1.036&0.008&0.024&0.040&0.086\\ 3.4&0.346&0.723&2.053&0.194&0.582&0.970&0.008&0.024&0.040&0.086\\ 3.6&0.444&0.993&2.785&0.168&0.503&0.838&0.008&0.024&0.039&0.088\\ 3.8&0.503&1.082&3.059&0.137&0.412&0.687&0.008&0.024&0.039&0.092\\ 4.0&0.501&0.990&2.850&0.111&0.333&0.556&0.008&0.024&0.040&0.111\\ 4.2&0.459&0.809&2.392&0.092&0.277&0.461&0.008&0.025&0.041&0.163\\ 4.4&0.404&0.619&1.894&0.081&0.242&0.403&0.009&0.026&0.043&0.236\\ 4.6&0.346&0.458&1.461&0.074&0.223&0.372&0.009&0.027&0.044&0.290\\ 4.8&0.293&0.340&1.129&0.071&0.214&0.357&0.009&0.027&0.044&0.302\\ 5.0&0.251&0.264&0.907&0.070&0.209&0.348&0.009&0.026&0.043&0.283\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{Effective collision strengths for Cl {\sc x} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .096& .048& .229& .045& .135& .225& .004& .013& .022& .066\\ 3.2& .096& .048& .229& .045& .135& .225& .005& .014& .024& .064\\ 3.4& .096& .048& .229& .045& .135& .225& .005& .016& .026& .060\\ 3.6& .096& .049& .230& .045& .135& .224& .006& .017& .028& .056\\ 3.8& .098& .050& .236& .045& .135& .226& .006& .018& .030& .053\\ 4.0& .105& .055& .255& .047& .140& .233& .006& .018& .030& .050\\ 4.2& .123& .063& .295& .050& .149& .248& .006& .018& .030& .049\\ 4.4& .147& .075& .352& .053& .158& .264& .006& .018& .031& .050\\ 4.6& .168& .092& .417& .054& .163& .272& .006& .018& .031& .055\\ 4.8& .182& .118& .493& .054& .162& .271& .006& .019& .031& .072\\ 5.0& .187& .148& .568& .053& .158& .264& .006& .019& .032& .102\\ \end{tabular} \end{flushleft} \end{table*} \begin{table*} \caption[]{\label{coltabn}Effective collision strengths for Ar {\sc xi} as a function of $\log$\,T} \begin{flushleft} \begin{tabular}{ccccccccccc} &\multicolumn{9}{c}{Transition}\\ $\log$\,T&$^3$P$_0$--$^3$P$_1$&$^3$P$_0$--$^3$P$_2$&$^3$P$_1$--$^3$P$_2$&$^3$P$_0$--$^1$D&$^3$P$_1$--$^1$D&$^3$P$_2$--$^1$D&$^3$P$_0$--$^1$S&$^3$P$_1$--$^1$S&$^3$P$_2$--$^1$S&$^1$D--$^1$S\\ 3.0& .083& .048& .212& .039& .116& .194& .005& .016& .026& .049\\ 3.2& .084& .050& .219& .039& .116& .194& .005& .016& .026& .049\\ 3.4& .087& .055& .232& .039& .116& .194& .005& .016& .026& .049\\ 3.6& .092& .061& .251& .039& .117& .195& .005& .016& .026& .049\\ 3.8& .099& .070& .281& .040& .119& .198& .005& .016& .026& .049\\ 4.0& .111& .083& .325& .041& .123& .204& .005& .016& .026& .050\\ 4.2& .131& .097& .382& .042& .127& .211& .005& .016& .026& .051\\ 4.4& .160& .115& .459& .043& .129& .214& .005& .016& .026& .055\\ 4.6& .190& .139& .551& .043& .128& .213& .005& .016& .026& .064\\ 4.8& .207& .161& .621& .042& .125& .209& .005& .016& .027& .079\\ 5.0& .206& .170& .639& .041& .123& .206& .006& .017& .028& .097\\ \end{tabular} \end{flushleft} \end{table*} \end{document}