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# data and constants, sorted by column
isingRange = "[0.0000005:5000000]"
dataIsing2D = "data/correlation-times/ising-2d.dat"
betaIsing2D = 1.0 / 8.0
nuIsing2D = 1.0
deltaIsing2D = 15.0
gammaIsing2D = 7.0 / 4.0
dataIsing3D = "data/correlation-times/ising-3d.dat"
betaIsing3D = 0.326419
nuIsing3D = 0.629971
deltaIsing3D = 4.78984
gammaIsing3D = 1.237075
pottsRange="[0.000001:5000000]"
data3Potts2D = "data/correlation-times/potts-3.dat"
beta3Potts2D = 1.0 / 9.0
nu3Potts2D = 5.0 / 6.0
delta3Potts2D = 14.0
gamma3Potts2D = 13.0 / 9.0
data4Potts2D = "data/correlation-times/potts-4.dat"
beta4Potts2D = 1.0 / 12.0
nu4Potts2D = 2.0 / 3.0
delta4Potts2D = 15.0
gamma4Potts2D = 7.0 / 6.0
vectorRange="[0.000001:10000000]"
data2Vector3D = "data/correlation-times/planar-pert.dat"
beta2Vector3D = 0.3470
nu2Vector3D = 0.6703
delta2Vector3D = 4.79539
gamma2Vector3D = 1.3169
data3Vector3D = "data/correlation-times/heisenberg-pert.dat"
beta3Vector3D = 0.3662
nu3Vector3D = 0.7073
delta3Vector3D = 4.79465
gamma3Vector3D = 1.3895
# define colors
cc1 = "#5e81b5"
cc2 = "#e19c24"
cc3 = "#8fb032"
cc4 = "#eb6235"
cc5 = "#8778b3"
cc6 = "#c56e1a"
cc7 = "#5d9ec7"
set palette model RGB defined ( 8 cc1, 16 cc2, 32 cc3, 64 cc4, 128 cc5, 256 cc6 , 512 cc7 )
# global plotting settings
set terminal epslatex size 6.834, 2.81576
set output "fig_clusters_ising2d.tex"
set multiplot layout 2,3 margins 0.05, 0.995, 0.15, 0.99 spacing 0.05, 0.015
set size ratio 1 / 1.61803398875
set key autotitle columnhead
unset colorbox
set nokey
set logscale xy
scaledylabel = '"$\\avg{s_{\\text{\\sc 1c}}}L^{-\\gamma/\\nu}$" offset 2,0'
# plotting the first row
set format x ""
unset xlabel
set ylabel @scaledylabel
# ploting Ising 2D
set xrange @isingRange
#set yrange [0.8:10]
plot dataIsing2D using (column("H")/column("T") * exp(log(column("L")) * betaIsing2D * deltaIsing2D / nuIsing2D)):(column("S") * exp(-log(column("L")) * (gammaIsing2D / nuIsing2D))):(column("dS") * exp(-log(column("L")) * (gammaIsing2D / nuIsing2D))):1 with yerrorbars pt 0 lw 2 palette,\
dataIsing2D using (column("H")/column("T") * exp(log(column("L")) * betaIsing2D * deltaIsing2D / nuIsing2D)):(column("S") * exp(-log(column("L")) * (gammaIsing2D / nuIsing2D))):1 with lines palette
unset ylabel
# plotting 3 Potts 2D
set xrange @pottsRange
set yrange [0.5:10]
plot data3Potts2D using (column("H")/column("T") * exp(log(column("L")) * beta3Potts2D * delta3Potts2D / nu3Potts2D)):(column("S") * exp(-log(column("L")) * (gamma3Potts2D / nu3Potts2D))):(column("dS") * exp(-log(column("L")) * (gamma3Potts2D / nu3Potts2D))):1 with yerrorbars pt 0 lw 2 palette,\
data3Potts2D using (column("H")/column("T") * exp(log(column("L")) * beta3Potts2D * delta3Potts2D / nu3Potts2D)):(column("S") * exp(-log(column("L")) * (gamma3Potts2D / nu3Potts2D))):1 with lines palette
# plotting 2 Vector 3D
set xrange @vectorRange
set yrange [0.4:250]
plot data2Vector3D using (column("H")/column("T") * exp(log(column("L")) * beta2Vector3D * delta2Vector3D / nu2Vector3D)):(column("S") * exp(-log(column("L")) * (gamma2Vector3D / nu2Vector3D))):(column("dS") * exp(-log(column("L")) * (gamma2Vector3D / nu2Vector3D))):1 with yerrorbars pt 0 lw 2 palette,\
data2Vector3D using (column("H")/column("T") * exp(log(column("L")) * beta2Vector3D * delta2Vector3D / nu2Vector3D)):(column("S") * exp(-log(column("L")) * (gamma2Vector3D / nu2Vector3D))):1 with lines palette
# plotting the second row
set format x '$10^{%T}$'
set xlabel '$hL^{\beta\delta/\nu}$'
set ylabel @scaledylabel
# plotting Ising 3D
set xrange @isingRange
set yrange [0.5:500]
plot dataIsing3D using (column("H")/column("T") * exp(log(column("L")) * betaIsing3D * deltaIsing3D / nuIsing3D)):(column("S") * exp(-log(column("L")) * (gammaIsing3D / nuIsing3D))):(column("dS") * exp(-log(column("L")) * (gammaIsing3D / nuIsing3D))):1 with yerrorbars pt 0 lw 2 palette,\
dataIsing3D using (column("H")/column("T") * exp(log(column("L")) * betaIsing3D * deltaIsing3D / nuIsing3D)):(column("S") * exp(-log(column("L")) * (gammaIsing3D / nuIsing3D))):1 with lines palette
unset ylabel
# plotting 4 Potts 2D
set xrange @pottsRange
set yrange [0.8:4]
plot data4Potts2D using (column("H")/column("T") * exp(log(column("L")) * beta4Potts2D * delta4Potts2D / nu4Potts2D)):(column("S") * exp(-log(column("L")) * (gamma4Potts2D / nu4Potts2D))):(column("dS") * exp(-log(column("L")) * (gamma4Potts2D / nu4Potts2D))):1 with yerrorbars pt 0 lw 2 palette,\
data4Potts2D using (column("H")/column("T") * exp(log(column("L")) * beta4Potts2D * delta4Potts2D / nu4Potts2D)):(column("S") * exp(-log(column("L")) * (gamma4Potts2D / nu4Potts2D))):1 with lines palette
# plotting 3 Vector 3D
set xrange @vectorRange
set yrange [0.1:100]
plot data3Vector3D using (column("H")/column("T") * exp(log(column("L")) * beta3Vector3D * delta3Vector3D / nu3Vector3D)):(column("S") * exp(-log(column("L")) * (gamma3Vector3D / nu3Vector3D))):(column("dS") * exp(-log(column("L")) * (gamma3Vector3D / nu3Vector3D))):1 with yerrorbars pt 0 lw 2 palette,\
data3Vector3D using (column("H")/column("T") * exp(log(column("L")) * beta3Vector3D * delta3Vector3D / nu3Vector3D)):(column("S") * exp(-log(column("L")) * (gamma3Vector3D / nu3Vector3D))):1 with lines palette
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