#!/usr/bin/env python3 import sys import py_functions as pf import matplotlib.pyplot as plt import numpy as np arguments = [] for arg in sys.argv[1:]: arguments.append(arg) OUTNAME = 0 if len(arguments) >= 1: OUTNAME = arguments[0] plt.style.use('seaborn-paper') fig = plt.figure() ax1 = fig.add_axes([0.1, 0.51, 0.6, 0.39]) pf.plot_mag_susc_2(ax1, colour='black') ax1.set_xticklabels([]) ax2 = fig.add_axes([0.1, 0.12, 0.6, 0.39]) pf.plot_entropy_2(ax2, colour='black') if OUTNAME != 0: plt.savefig(OUTNAME) else: plt.show()
import numpy as np arguments = [] for arg in sys.argv[1:]: arguments.append(arg) OUTNAME = 0 if len(arguments) >= 1: OUTNAME = arguments[0] plt.style.use('seaborn-paper') fig = plt.figure() U, G = pf.get_u_gamma() ax1 = fig.add_axes([0.2, 0.55, 0.55, 0.45]) pf.plot_mag_susc_2(ax1, colour='tab:purple', llabel=f"$U={U}$, $\Gamma={G}$") ax1.set_xticklabels([]) ax1.set_yticks(np.arange(0, 1, 0.25)) ax2 = fig.add_axes([0.2, 0.15, 0.55, 0.40]) pf.plot_entropy_2(ax2, colour='tab:purple') ax2.set_yticks(np.arange(0, 4, 1)) ax2.set_xticks(np.exp(np.arange(-20, 1, 4))) ax2.semilogx() ax1.legend(loc='upper left', frameon=True, facecolor='white', edgecolor='white', framealpha=0.8, fontsize=15)
elif line[:5] == 'Gamma': new_param.write('Gamma={}\n'.format(pair[1])) else: new_param.write(line) param.close() new_param.close() subprocess.call(['mv', 'new_param', 'param']) subprocess.call('./1e_run_th_fl') N = pf.get_N('e-q0s1_table1.dat') col = colours[colour] pf.plot_mag_susc_2(ax_mag, colour=col, llabel='$U = {:3.0e}$ , $\Gamma = {:3.0e}$'.format( pair[0], pair[1]), llinestyle=lin, labels=False) ax_mag.tick_params(labelsize=15) ax_mag.set_xticklabels([]) pf.plot_entropy_2(ax_entr, colour=col, llinestyle=lin, labels=False) ax_entr.tick_params(labelsize=15) ymax = 0.5 par_mag = ax_mag.twinx() par_mag.set_ylim(ax_mag.get_ylim()) par_mag.set_yticks((0, 0.125, 0.25)) par_mag.set_yticklabels(('$0$ : SC', '$1/8$ : FO', '$1/4$ : LM')) par_mag.tick_params(axis='both', which='major', labelsize=15)
new_param.write("\n") else: if line[0]=='J': new_param.write( "Jkondo={}\n".format(j) ) else: new_param.write(line) param.close() new_param.close() subprocess.call([ 'mv' , 'new_param' , 'param' ]) subprocess.call( './1d_run_th_fl' ) N = pf.get_N( 'e-q0s1_table1.dat' ) col = colours[colour] pf.plot_mag_susc_2( ax_mag , colour=col , mark=mark , llabel=f"$J={j}$" , twin=False ) ax_mag.set_xticklabels([]) pf.plot_entropy_2( ax_entr , colour=col , mark=mark , twin=False ) ymax=1 par = ax_entr.twinx() par.set_ylim([ 0 , ymax ]) par.set_yticks(( 0 , mt.log(2) )) par.set_yticklabels(( '$\ln(1)$ : SC' , '$\ln(2)$ : LM' ) ) par.tick_params( labelsize='large' ) ymax=0.5 par = ax_mag.twinx() par.set_ylim([ 0 , ymax ]) par.set_yticks(( 0 , 0.25 )) par.set_yticklabels(('$0$ : SC','$1/4$ : LM'))
for line in param: if line=="" or line=="\n": new_param.write("\n") else: if line[0]=='U': new_param.write("U={}\n".format(pair[0])) elif line[:5]=='Gamma': new_param.write('Gamma={}\n'.format(pair[1])) else: new_param.write(line) param.close() new_param.close() subprocess.call([ 'mv' , 'new_param' , 'param' ]) subprocess.call( './1d_run_th_fl' ) N = pf.get_N( 'e-q0s2_table1.dat' ) col = colours[colour] pf.plot_mag_susc_2( ax_mag , colour=col , llabel='$U = {:3.0e}$ , $\Gamma = {:3.0e}$'.format(pair[0],pair[1]) ) pf.plot_entropy_2( ax_entr , colour=col ) ax_mag.legend( loc='upper left' , frameon=True , facecolor='white' , edgecolor='white' , framealpha=0.8 , ncol=2 ) if OUTFILE!=0: plt.savefig("/graphs_and_data/arrowplots_multiple/{}".format(OUTFILE)) else: plt.show()
arguments=[] for arg in sys.argv[1:]: arguments.append( arg ) OUTNAME = 0 if len(arguments)>=1: OUTNAME = arguments[0] plt.style.use( 'seaborn-paper' ) fig = plt.figure() #colour = list( mcolors.TABLEAU_COLORS.values() )[0] colour = 'black' ax1 = fig.add_axes( [0.2, 0.55, 0.6, 0.43] ) pf.plot_mag_susc_2( ax1 , colour=colour , llabel=f'$U = {pf.get_u_gamma()[0]}$, $\Gamma = {pf.get_u_gamma()[1]}$' ) ax1.set_xticklabels([]) ax1.tick_params( axis='both' , which='major' , labelsize=15 ) ax2 = fig.add_axes( [0.2, 0.2, 0.6, 0.35] ) pf.plot_entropy_2( ax2 , colour=colour ) plt.xticks( fontsize=15 ) plt.yticks( fontsize=15 ) ax2.tick_params( axis='both' , which='major' , labelsize=15 ) ax1.legend( loc='upper left' , frameon=True , framealpha=0.7 , facecolor='white' , edgecolor='white' , fontsize=15 ) if OUTNAME!=0: plt.savefig( OUTNAME ) else: