#!/bin/gnuplot #set terminal pngcairo size 600,600 enhanced font 'Verdana,10' #set output 'plot_pes.png' #set terminal postscript eps size 5.3,3.0 enhanced color \ set terminal postscript eps size 5.3,5.3 enhanced color \ font 'Helvetica,24' linewidth 2 set output 'freq.eps' set encoding iso_8859_1 ################################################################################### ################################################################################### # SYSTEM DEPENDENT PART: #set xrange[-0.1:4.1] #set xtics 1 # VIEW 1: set yrange[4000:4700] set ytics 100 mass1=1.0078250321 mass2=18.9984032 #set format y "%.2f" set xrange[1:1e7] set logscale x set format x "10^{%T}" set xtics 10**2 set mxtics 1 ################################################################################### ################################################################################### set grid xtics ytics mxtics mytics #lc rgb 'blue' lt 1, lc rgb 'red' lt 1 if (!exists("MP_LEFT")) MP_LEFT = 0.17 if (!exists("MP_RIGHT")) MP_RIGHT = 0.97 if (!exists("MP_BOTTOM")) MP_BOTTOM = 0.10 if (!exists("MP_TOP")) MP_TOP = 0.97 if (!exists("MP_xGAP")) MP_xGAP = 0.08 if (!exists("MP_yGAP")) MP_yGAP = 0.08 set multiplot layout 1,2 rowsfirst \ margins screen MP_LEFT, MP_RIGHT, MP_BOTTOM, MP_TOP spacing screen MP_xGAP, MP_yGAP set style line 1 dt 1 lw 2 linecolor rgb "gray60" set style line 2 dt 1 lw 2 linecolor rgb "black" set style line 3 dt 1 lw 2 linecolor rgb "light-red" pt 13 ps 2 set style line 4 dt 1 lw 2 linecolor rgb "sea-green" pt 13 ps 2 set style line 8 dt 1 lw 2 linecolor rgb "medium-blue" pt 13 ps 2 set style line 13 dt 1 lw 2 linecolor rgb "light-red" pt 7 ps 2 set style line 14 dt 1 lw 2 linecolor rgb "sea-green" pt 7 ps 2 set style line 18 dt 1 lw 2 linecolor rgb "medium-blue" pt 7 ps 2 set xlabel 'Number of determinants' set ylabel "Vibrational frequency (cm^{-1})" #set ylabel "Force constant (Hartree/a_{0}^2)" hartree = 4.3597447222071e-18 # joules bohr = 1./18897161646.321 # m amu = 1.6605402e-27 # kg c = 299792458.0 # m/s mole = 6.02214076e23 mu=mass1*mass2/(mass1+mass2)*amu #fac = sqrt( (hartree/(bohr*bohr) ) / mu)/(2.0*pi*c) * 0.01 fac = sqrt(hartree/mu)/(2.0*pi*c) * 0.01 * 10**10 ################################################################################### ################################################################################### # SYSTEM DEPENDENT PART: plot 'det_aD_FCI.dat' u 2:(sqrt(2*$5)*$3*fac) w l ls 2 notitle, \ 'det_aD_CI.dat' u 1:(sqrt(2*$5)*$3*fac) w lp ls 3 notitle, \ 'det_aD_CIs.dat' u 1:(sqrt(2*$5)*$3*fac) w lp ls 8 notitle, \ 'det_aD_CIo.dat' u 1:(sqrt(2*$5)*$3*fac) w lp ls 4 notitle unset ylabel unset label set format y "" plot 'det_aD_FCI.dat' u 2:(sqrt(2*$5)*$3*fac) w l ls 2 notitle, \ 'det_aD_ooCI.dat' u 1:(sqrt(2*$5)*$3*fac) w lp ls 13 notitle, \ 'det_aD_ooCIs.dat' u 1:(sqrt(2*$5)*$3*fac) w lp ls 18 notitle, \ 'det_aD_ooCIo.dat' u 1:(sqrt(2*$5)*$3*fac) w lp ls 14 notitle ################################################################################### ################################################################################### #pause -1