idcs_obj[0]:idcs_obj[5]], flux_emis[ idcs_obj[0]:idcs_obj[5]] dz.data_plot(subWwave, subFlux, label='', linestyle='step', graph_axis=dz.Axis[j]) dz.data_plot(subwave_solar, subFlux_solar, label='', linestyle='step', graph_axis=dz.Axis[j]) #Get the good region PartialWavelength, PartialIntensity, LineHeight, LineExpLoc = dz.Emission_Threshold( reduc_lineslog_df.loc[element_lines[j]].lambda_theo, wave_reduc, flux_reduc) dz.Axis[j].set_ylim(median(subFlux_emis / 10), LineHeight * 2) dz.FigWording(xlabel='', ylabel='', title=element_lines[j], graph_axis=dz.Axis[j]) #Label with theoretical flux: target_lines = ['N2_6548A', 'N2_6584A'] if reduc_lineslog_df.index.isin(target_lines).sum() == len( target_lines): ratio = reduc_lineslog_df.loc[ 'N2_6584A'].line_Int / reduc_lineslog_df.loc[ 'N2_6548A'].line_Int