PRO make_sed_phangs_tables,test=test,show_seds=show_seds,grid_type=grid_type,isrf_class=isrf_class ;make_sed_phangs_tables ;make_sed_phangs_tables,/test,grid_type=2,/show_seds,isrf_class=15 ;make_sed_phangs_tables,/test,grid_type=3,/show_seds ;=== This is needed for Phangs work ;defsysv,'!phangs_data_dir','/Volumes/PILOT_FLIGHT1/PHANGS/' ;defsysv,'!phangs_data_dir','/data/projects/phangs/' ;=== This is where the grids will be written ;dir=!dustem_wrap_soft_dir+'/Grids/' dir=!phangs_data_dir+'/ISRF/GRIDS/' dustem_define_la_common use_grid_type=1 IF keyword_set(grid_type) THEN BEGIN use_grid_type=grid_type ENDIF CASE use_grid_type OF 1: BEGIN ;======= This is to produce a grid with the DBP90 model + Mathis field for G0 and PAH abundance !quiet=1 model='DBP90' ;===== This is to do a small test_table pd = [ $ '(*!dustem_params).G0', $ ;G0 '(*!dustem_params).grains(0).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(1).mdust_o_mh'] ;VSG mass fraction iv_min = [0.1,1.e-4,1.e-4] iv_max = [100,1.e-1,1.e-1] log=[1,1,1] fpd=[] fiv=[] IF keyword_set(test) THEN BEGIN iv_Nvalues=[5,3,3] table_name=dir+'TEST_'+model+'_JWST_G0_YPAH_YVSG_4Phangs.fits' ENDIF ELSE BEGIN iv_Nvalues=[50,20,20] table_name=dir+model+'_JWST_G0_YPAH_YVSG_4Phangs.fits' ENDELSE dustem_init,model=model ;=== select filters to be used for the grid filters=[(*!dustem_filters).nircam.filter_names,(*!dustem_filters).miri.filter_names] dustem_make_sed_table,model,pd,iv_min,iv_max,iv_Nvalues,fpd=fpd,fiv=fiv,filename=table_name,filters=filters,log=log,show_seds=show_seds END 2: BEGIN ;This is DPB90 model with PHANGS ISRF classes !quiet=1 model='DBP90' ;This is to use the DBP90 dust model ;======= This is to produce a grid with the above model for G0 and PAH abundance and ISRF from the Muse data ;======= Note that g0 is fixed parameters is actually not used, replaced by dustem_plugin_phangs_class_isrf_2 pd = [ $ 'dustem_plugin_phangs_class_isrf_2', $ ;G0 factor for Phangs ISRF classes '(*!dustem_params).grains(0).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(1).mdust_o_mh'] ;VSG mass fraction iv_min = [0.1,1.e-4,1.e-4] iv_max = [100,1.e-1,1.e-1] log=[1,1,1] Nclass=31L fpd=['(*!dustem_params).gas.g0','(*!dustem_params).g0','dustem_plugin_phangs_class_isrf_1'] ;ISRF class to be used dustem_init,model=model fortran_user=dustem_set_up_fortran(/random_name) ;use a random fortran number !dustem_verbose=0 (*!dustem_params).KEYWORDS='quiet '+(*!dustem_params).KEYWORDS ;This makes Fortran be quiet too ;=== select filters to be used for the grid filters=[(*!dustem_filters).nircam.filter_names,(*!dustem_filters).miri.filter_names, $ (*!dustem_filters).iras.filter_names,(*!dustem_filters).pacs.filter_names,(*!dustem_filters).spire.filter_names] IF keyword_set(isrf_class) THEN BEGIN ;do just one table use_isrf_class=isrf_class ENDIF ELSE BEGIN use_isrf_class=0 ;This is for Mathis field ENDELSE fiv=[-1.,1.,use_isrf_class] ;This sets the ISRF class to the requested value isrf_class_str='_isrfclass'+strtrim(use_isrf_class,2) ;define the number of free parameters in the grid and the grid fits table name IF keyword_set(test) THEN BEGIN iv_Nvalues=[5,3,3] table_name=dir+'TEST_'+model+'_MuseISRF_JWST_G0_YPAH_YVSG_4Phangs'+isrf_class_str+'.fits' ENDIF ELSE BEGIN iv_Nvalues=[50,20,20] table_name=dir+model+'_MuseISRF_JWST_G0_YPAH_YVSG_4Phangs'+isrf_class_str+'.fits' ENDELSE dustem_make_sed_table,model,pd,iv_min,iv_max,iv_Nvalues,fpd=fpd,fiv=fiv,filename=table_name,filters=filters,log=log,show_seds=show_seds END 3: BEGIN ;This is DPB90 model with DL07 ISRF prescription (a la Chastanet) !quiet=1 model='DBP90' ;This is to use the DBP90 dust model ;======= This is to produce a grid with the above model for G0 and PAH abundance and ISRF from the Muse data ;======= Note that g0 is fixed parameters is actually not used, replaced by dustem_plugin_phangs_class_isrf_2 pd = [ $ 'dustem_plugin_dl07_isrf_model_1', $ ;gamma factor 'dustem_plugin_dl07_isrf_model_3', $ ;Umin factor '(*!dustem_params).grains(0).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(1).mdust_o_mh' $ ;VSG mass fraction ] ;umin: 0.1-100 ;gamma: 0.0,0.02 ;umax: 1.e7 ;alpha: 2. iv_min = [0.1,0. ,1.e-4,1.e-4] iv_max = [100,0.02,1.e-1,1.e-1] log=[1,1,1,1] fpd=['(*!dustem_params).gas.g0','(*!dustem_params).g0', $ 'dustem_plugin_dl07_isrf_model_2', $ ;alpha 'dustem_plugin_dl07_isrf_model_4' $ ;Umax ] dustem_init,model=model fortran_user=dustem_set_up_fortran(/random_name) ;use a random fortran number !dustem_verbose=0 (*!dustem_params).KEYWORDS='quiet '+(*!dustem_params).KEYWORDS ;This makes Fortran be quiet too ;=== select filters to be used for the grid filters=[(*!dustem_filters).nircam.filter_names,(*!dustem_filters).miri.filter_names, $ (*!dustem_filters).iras.filter_names,(*!dustem_filters).pacs.filter_names,(*!dustem_filters).spire.filter_names] fiv=[-1.,1.,2.,1.e7] ;This sets the fixed parameters ;define the number of free parameters in the grid and the grid fits table name IF keyword_set(test) THEN BEGIN iv_Nvalues=[2,2,3,3] table_name=dir+'TEST_'+model+'_DL07ISRF_G0_YPAH_YVSG_4Phangs'+'.fits' ENDIF ELSE BEGIN iv_Nvalues=[6,5,20,20] table_name=dir+model+'_DL07ISRF_G0_YPAH_YVSG_4Phangs'+'.fits' ENDELSE dustem_make_sed_table,model,pd,iv_min,iv_max,iv_Nvalues,fpd=fpd,fiv=fiv,filename=table_name,filters=filters,log=log,show_seds=show_seds END ENDCASE the_end: END