FUNCTION dustem_plugin_emiles_stellar_continuum,key=key $ ,val=val $ ,scope=scope $ ,paramtag=paramtag $ ,paramdefault=paramdefault $ ,help=help ;+ ; NAME: ; dustem_plugin_emiles_stellar_continuum ; PURPOSE: ; DustEMWrap plugin to add EMILES stellar template emission to Dustemwrap SEDs ; CATEGORY: ; DustEM, Distributed, Mid-Level, Plugin ; CALLING SEQUENCE: ; stellar_brightness=dustem_plugin_emiles_stellar_continuum([,key=][,val=][,scope=][,paramtag=][paramdefault=][,/help]) ; INPUTS: ; None ; OPTIONAL INPUT PARAMETERS: ; key = input parameter number ; First parameter: factor to apply to tau for redenning (1 means value derived from emission SED) ; Following 13*6 parameters are weights by which to multiply the MILES templates [Msun/pc^2] ; val = corresponding input parameter value ; OUTPUTS: ; stellar_brightness = stellar spectrum spectrum resampled on dustem wavelengths [MJy/sr] ; OPTIONAL OUTPUT PARAMETERS: ; scope = scope of the plugin ; paramdefault = default values of parameters ; paramtag = plugin parameter names as strings ; ACCEPTED KEY-WORDS: ; help = if set, print this help ; COMMON BLOCKS: ; None ; SIDE EFFECTS: ; None ; RESTRICTIONS: ; The DustEMWrap IDL code must be installed ; PROCEDURE: ; This is a DustEMWrap plugin ; EXAMPLES ; dustem_init ; vec=dustem_plugin_emiles_stellar_continuum(scope=scope) ; MODIFICATION HISTORY: ; Written by JPB June 2023 ; Evolution details on the DustEMWrap gitlab. ; See http://dustemwrap.irap.omp.eu/ for FAQ and help. ;- IF keyword_set(help) THEN BEGIN doc_library,'dustem_plugin_emiles_stellar_continuum' output=0. goto,the_end ENDIF ;stop ;default values of input parameters scope='ADD_SED' age_values=[0.03, 0.05, 0.08, 0.15, 0.25, 0.40, 0.60, 1.0, 1.75, 3.0, 5.0, 8.5, 13.5] metalicity_values=[-1.48630, -0.961400, -0.351200, +0.0600000, +0.255900, +0.397100] ;read template info info_st=dustem_read_emiles_stellar_templates(age_values,metalicity_values,/info_only) age_values_emiles=info_st.age order=sort(age_values_emiles) age_values_emiles=age_values_emiles[order] un=uniq(age_values_emiles) age_values_emiles=age_values_emiles[un] met_values_emiles=info_st.z order=sort(met_values_emiles) met_values_emiles=met_values_emiles[order] un=uniq(met_values_emiles) met_values_emiles=met_values_emiles[un] Nage=n_elements(age_values) Nmetalicity=n_elements(metalicity_values) Nparam=Nage*Nmetalicity+1 ;+1 is for opacity paramtag=strarr(Nparam) paramdefault=dblarr(Nparam) paramdefault[*]=0.D0 i=0L paramtag[0]='tau_f' ii=1L FOR i=1L,Nparam-1 DO BEGIN ij=index2ij([i-1],[Nage,Nmetalicity]) paramtag[ii]='Age'+strtrim(ij[0,0],2)+'Met'+strtrim(ij[0,1],2) ii=ii+1 ENDFOR paramvalues=paramdefault IF keyword_set(key) THEN BEGIN ind=where(key EQ 1,count) IF count NE 0 THEN paramvalues[0]=val[ind[0]] FOR i=1L,Nparam-1 DO BEGIN ind=where(key EQ i+1,count) IF count NE 0 THEN paramvalues[i]=val[ind[0]] ENDFOR ENDIF ;==== initialize templates if not present defsysv,'!dustem_plugin_emiles_stellar_continuum',exist=exist IF exist EQ 0 THEN BEGIN st={ssps:ptr_new(),wavs:ptr_new(),Mstars:ptr_new()} defsysv,'!dustem_plugin_emiles_stellar_continuum',st ENDIF IF not ptr_valid(!dustem_plugin_emiles_stellar_continuum.ssps) THEN BEGIN message,'Initializing SSP templates',/continue template_flux=dustem_read_emiles_stellar_templates(age_values,metalicity_values,template_wav=template_wav,Mstars=Mstars) !dustem_plugin_emiles_stellar_continuum.ssps=ptr_new(template_flux) !dustem_plugin_emiles_stellar_continuum.wavs=ptr_new(template_wav) !dustem_plugin_emiles_stellar_continuum.mstars=ptr_new(Mstars) ENDIF lambir=dustem_get_wavelengths() Nwavs=n_elements(lambir) output=fltarr(Nwavs,3) wavs=*!dustem_plugin_emiles_stellar_continuum.wavs Mstars=*!dustem_plugin_emiles_stellar_continuum.mstars ;==== sum up the stellar spectrum ;stop FOR i=1L,Nparam-1 DO BEGIN ;IF paramvalues[i] NE 0. AND ptr_valid((*!phangs_ssps)[i-1]) THEN BEGIN IF paramvalues[i] NE 0. THEN BEGIN ;stop ;only interpolate within the template wavelengths ;ind=where(lambir LE max(*!phangs_wavs) AND lambir GE min(*!phangs_wavs),count) ind=where(lambir LE max(wavs) AND lambir GE min(wavs),count) ;Mstar=(*!phangs_Mstars)[i] Mstar=Mstars[i-1] IF count NE 0 THEN BEGIN ;output[ind,0]=output[ind,0]+paramvalues[i]*interpol(*(*!phangs_ssps)[i-1],*!phangs_wavs,lambir[ind]) ;spectrum=*(*!phangs_ssps)[i-1] ;ssp=*(*!phangs_ssps)[i-1] ssp=*(*!dustem_plugin_emiles_stellar_continuum.ssps)[i-1] ;stop output[ind,0]=output[ind,0]+paramvalues[i]*Mstar*interpol(ssp,wavs,lambir[ind]) ENDIF ENDIF ENDFOR ;==== Caution: at this point, output is in Lsun/pc^2/Angstroem ;Caution: I am not sure about the nomalisation of the extinction curve that is in IF ptr_valid(!dustem_current) THEN BEGIN ;stop tau_fact=paramvalues[0] extinction_curve=((*!dustem_current).ext).ext_tot*(*!dustem_HCD)/1.0e21 ;This is tau ;*(*!dustem_HCD)/1.0e21 ;wav_ref=551.e-9*1.e6 ;visible 551 nm in microns ;tau_ref=interpol(extinction_curve,lambir,wav_ref) ;normalize extinction curve by given tau fact extinction_curve=extinction_curve*tau_fact ;stop output[*,0]=output[*,0]*exp(-1.*extinction_curve) ENDIF ;no polarization for now output[*,1]=0. output[*,2]=0. ;at that stage, output is F_lambda in Lsun/A/pc^2 ;goint to MJy/sr (1e-20 W/m2/sr/hz) pc=3.085677581e16 ;m ;kpc=3.085677581e19 ;m Lsun=3.828e26 ;Watts c=3.e5*1e3 ;m/s ;Fact=Lsun ;Watts/A ;fact=fact*c ;Watts/hz ;fact=fact/4./!pi ;Watts/Hz/sr ;fact=fact/pc^2 ;Watts/m2/Hz/sr fact=Lsun/pc*c/4./!pi/pc output=output*fact the_end: RETURN,output END