diff options
| -rw-r--r-- | fig-stiffnesses.gplot | 20 | ||||
| -rw-r--r-- | fig-stiffnesses.pdf | bin | 83179 -> 95086 bytes | |||
| -rw-r--r-- | main.tex | 2 |
3 files changed, 16 insertions, 6 deletions
diff --git a/fig-stiffnesses.gplot b/fig-stiffnesses.gplot index 2ccfc70..eb800d7 100644 --- a/fig-stiffnesses.gplot +++ b/fig-stiffnesses.gplot @@ -2,6 +2,7 @@ # colors cc1 = "#5e81b5" cc2 = "#e19c24" +cc2l = "#f9ebd3" cc3 = "#1a85ff" cc4 = "#d41159" @@ -21,11 +22,11 @@ c2 = 120.462 C20(T) = a2 - b2 * T**2 / (c2 + T) -set terminal epslatex size 8.68cm, 6.5cm standalone header \ +set terminal epslatex size 8.68cm, 6.7cm standalone header \ '\usepackage{xcolor}\definecolor{mathc3}{HTML}{1a85ff}\definecolor{mathc4}{HTML}{d41159}' set output "fig-stiffnesses.tex" -set multiplot layout 2, 2 margins 0.1, 0.88, 0.1, 0.99 spacing 0.01, 0.01 +set multiplot layout 2, 2 margins 0.1, 0.88, 0.125, 0.99 spacing 0.01, 0.01 set nokey @@ -40,18 +41,25 @@ set format x '\tiny $%.0f$' #set format x2 '\tiny $%.0f$' set format x2 '' +set style rect back fc rgb cc2l +set object 1 rect from 0,0 to Tc,200 +set border lw 2 front +set tics front + set arrow 1 from Tc,graph 0 to Tc,graph 1 nohead lw 5 lc rgb cc2 unset xtics set x2tics 50, 50, 250 offset 0,-0.5 mirror #set x2label '\tiny $T / \mathrm K$' offset 0,-1.0 set xrange [0:300] +set title '(a)' offset 5,-2.7 set ylabel '\scriptsize $C_{\mathrm{B_{2\mathrm g}}} / \mathrm{GPa}$' offset 3.5 set yrange [140:145] -set ytics 141,1,144 offset 0.5 +set ytics 141,1,144 offset 0.5 mirror plot "data/c66.dat" using 1:(100 * $2) with lines lw 3 lc rgb cc3, \ C20(x) dt 3 lw 4 lc rgb cc4 +set title '(b)' offset 5,-2.7 unset ylabel set y2label '\scriptsize $C_{\mathrm{B_{1\mathrm g}}} / \mathrm{GPa}$' offset -5 rotate by -90 set yrange [65.05:65.7] @@ -63,7 +71,8 @@ plot "data/c11mc12.dat" using 1:(100 * $2) with lines lw 3 lc rgb cc3, \ unset x2label unset x2tics -set xlabel '\scriptsize $T / \mathrm K$' offset 0,1.25 +set title '(c)' offset 5,-2.7 +set xlabel '\scriptsize $T / \mathrm K$\\~' offset 0,0.78 set xtics 50, 50, 250 offset 0,0.5 mirror unset y2tics set ytics 63,1,72 @@ -77,9 +86,10 @@ plot "data/c11mc12.dat" using 1:(100 * $2) with lines lw 3 lc rgb cc3, \ set ylabel '' set y2label '\scriptsize $[C^0(C^0/C - 1)]^{-1} \cdot \mathrm{GPa}$' offset -5.5 rotate by -90 +set title '(d)' offset 5,-2.7 set format y2 '\tiny $%0.2f$' set format y '\tiny $%0.2f$' -set yrange [0.12:0.345] +set yrange [0.12:0.38] set y2tics 0.15,0.05,0.39 offset -0.7 mirror plot "data/c11mc12.dat" using 1:(1 / (C10($1)*(C10($1) / (100 * $2) - 1))) with lines lw 3 lc rgb cc3, \ 1/(C10(x) * (C10(x) / C1(x) - 1)) dt 3 lw 4 lc rgb cc4 diff --git a/fig-stiffnesses.pdf b/fig-stiffnesses.pdf Binary files differindex c2dbf9f..794e956 100644 --- a/fig-stiffnesses.pdf +++ b/fig-stiffnesses.pdf @@ -439,7 +439,7 @@ where $\eta$ has a large nonzero value and higher powers in the free energy become important. The data in the high-temperature phase can be fit to the theory \eqref{eq:elastic.susceptibility}, with a linear background modulus $C^0_\Bog$ and $\tilde r-\tilde r_c=a(T-T_c)$, and the result is shown in -Figure \ref{fig:fit}. The data and theory appear quantitatively consistent in +Figure \ref{fig:data}. The data and theory appear quantitatively consistent in the high temperature phase, suggesting that \ho\ can be described as a $\Bog$-nematic phase that is modulated at finite $q$ along the $c-$axis. |