diff options
Diffstat (limited to 'ising_scaling.tex')
| -rw-r--r-- | ising_scaling.tex | 34 |
1 files changed, 15 insertions, 19 deletions
diff --git a/ising_scaling.tex b/ising_scaling.tex index 4f2abfe..8152e04 100644 --- a/ising_scaling.tex +++ b/ising_scaling.tex @@ -735,8 +735,8 @@ accuracy of the fit results can be checked against the known values here. \begin{gnuplot}[terminal=epslatex] dat1 = 'data/glow_numeric.dat' dat2 = 'data/glow_series_ours_0.dat' - dat3 = 'data/glow_series_caselle.dat' - dat4 = 'data/glow_series_ours_9.dat' + dat3 = 'data/glow_series_ours_9.dat' + dat4 = 'data/glow_series_caselle.dat' set key top left Left reverse set logscale y @@ -747,9 +747,8 @@ accuracy of the fit results can be checked against the known values here. plot \ dat1 using 1:(abs($2)):3 title 'Numeric' with yerrorbars, \ - dat2 using 1:(abs($2)) title 'Ours ($n=2$)', \ - dat3 using 1:(abs($2)) title 'Caselle', \ - dat4 using 1:(abs($2)) title 'Caselle' + dat2 using 1:(abs($2)) title 'This work ($n=2$)', \ + dat4 using 1:(abs($2)) title 'Caselle \textit{et al.}' \end{gnuplot} \caption{ } @@ -759,8 +758,8 @@ accuracy of the fit results can be checked against the known values here. \begin{gnuplot}[terminal=epslatex] dat1 = 'data/glow_numeric.dat' dat2 = 'data/glow_series_ours_0.dat' - dat4 = 'data/glow_series_ours_9.dat' - dat3 = 'data/glow_series_caselle.dat' + dat3 = 'data/glow_series_ours_9.dat' + dat4 = 'data/glow_series_caselle.dat' ratLast(x) = (back2 = back1, back1 = x, back1 / back2) back1 = 0 back2 = 0 @@ -772,9 +771,8 @@ accuracy of the fit results can be checked against the known values here. plot \ dat1 using (1/$1):(abs(ratLast($2))) title 'Numeric', \ - dat2 using (1/$1):(abs(ratLast($2))) title 'Ours ($n=2$)', \ - dat3 using (1/$1):(abs(ratLast($2))) title 'Caselle', \ - dat4 using (1/$1):(abs(ratLast($2))) title 'Caselle' + dat2 using (1/$1):(abs(ratLast($2))) title 'This work ($n=2$)', \ + dat4 using (1/$1):(abs(ratLast($2))) title 'Caselle \textit{et al.}' \end{gnuplot} \caption{ } @@ -783,22 +781,20 @@ accuracy of the fit results can be checked against the known values here. \begin{figure} \begin{gnuplot}[terminal=epslatex] dat1 = 'data/ghigh_numeric.dat' - dat2 = 'data/ghigh_caselle.dat' - dat3 = 'data/ghigh_series_ours_2.dat' - dat4 = 'data/ghigh_series_ours_9.dat' + dat2 = 'data/ghigh_series_ours_2.dat' + dat4 = 'data/ghigh_caselle.dat' set key top left Left reverse set logscale y set xlabel '$n$' set ylabel '$\mathcal F_+^{(n)}$' set format y '$10^{%T}$' - set xrange [0:14.5] + set xrange [1.5:14.5] plot \ dat1 using 1:(abs($2)):3 title 'Numeric' with yerrorbars, \ - dat2 using 1:(abs($2)) title 'Caselle', \ - dat3 using 1:(abs($2)) title 'Caselle', \ - dat4 using 1:(abs($2)) title 'Caselle' + dat2 using 1:(abs($2)) title 'This work ($n=2$)', \ + dat4 using 1:(abs($2)) title 'Caselle \textit{et al.}' \end{gnuplot} \caption{ } @@ -818,8 +814,8 @@ accuracy of the fit results can be checked against the known values here. plot \ dat1 using 1:(abs($2)):3 title 'Numeric' with yerrorbars, \ - dat2 using 1:(abs($2)) title 'Numeric', \ - dat3 using 1:(abs($2)) title 'Numeric' + dat2 using 1:(abs($2)) title 'This work ($n=2$)', \ + dat3 using 1:(abs($2)) title 'This work ($n=7$)' \end{gnuplot} \caption{ } |