FUNCTION dustem_compute_polsed,p_dim,stp,out_st=out_st,_extra=extra ;+ ; NAME: ; dustem_compute_polsed ; PURPOSE: ; Computes an SED from a given Dustem spectrum ; CATEGORY: ; Dustem ; CALLING SEQUENCE: ; sed=dustem_compute_polsed(p_dim[,st=][,_extra=][,/help]) ; INPUTS: ; p_dim = parameter values ; OPTIONAL INPUT PARAMETERS: ; stp = Dustem structure ; OUTPUTS: ; sed : computed SED for filters in !dustem_data ; dustem_qsed : SED in Q ; dustem_used : SED in U ; OPTIONAL OUTPUT PARAMETERS: ; stp = Dustem output structure ; ACCEPTED KEY-WORDS: ; help = If set, print this help ; COMMON BLOCKS: ; None ; SIDE EFFECTS: ; None ; RESTRICTIONS: ; The dustem idl wrapper must be installed ; PROCEDURE: ; None ; EXAMPLES ; ; MODIFICATION HISTORY: ; Written by J.-Ph. Bernard ; see evolution details on the dustem cvs maintained at CESR ; Contact J.-Ph. Bernard (Jean-Philippe.Bernard@cesr.fr) in case of problems. IF keyword_set(help) THEN BEGIN doc_library,'dustem_compute_polsed' dustem_polsed=0. goto,the_end ENDIF IF not keyword_set(stp) THEN BEGIN dustem_activate_plugins,p_dim/(*(*!dustem_fit).param_init_values) stp=dustem_run(p_dim) ENDIF If keyword_set(result) THEN result=stp fact = 1.e4*(*!dustem_HCD)/(4.*!pi)/(3.e8/1.e-6/(stp.polsed).wav)*1.e20/1.e7 P = stp.polsed.em_tot*fact;1.00e17/(4.*!pi) ;This is Polarized intensity P stI = stp.sed.em_tot*fact;1.00e17/(4.*!pi) ;This is Total intensity I out=0. Nwaves=(size(P))[1] frac=P/stI tes=where(finite(frac) eq 0) frac(tes)=0. ;IF ptr_valid(!dustem_plugin) THEN BEGIN scopes=tag_names((*!dustem_scope)) IF scopes[0] NE 'NONE' THEN BEGIN FOR i=0L,n_tags(*!dustem_scope)-1 DO BEGIN IF total(strsplit((*(*!dustem_scope).(i)),'+',/extract) EQ 'REPLACE_QSED') THEN BEGIN Q_spec=(*(*!dustem_plugin).(i))[*,1] ENDIF IF total(strsplit((*(*!dustem_scope).(i)),'+',/extract) EQ 'REPLACE_USED') THEN BEGIN U_spec=(*(*!dustem_plugin).(i))[*,2] ENDIF ENDFOR IF ~isa(Q_spec) && ~isa(U_spec) THEN polar_ippsi2iqu,stI,Q_spec,U_spec,frac,replicate(0.,Nwaves) FOR i=0L,n_tags(*!dustem_scope)-1 DO BEGIN IF total(strsplit((*(*!dustem_scope).(i)),'+',/extract) EQ 'ADD_QSED') THEN BEGIN Q_spec+=(*(*!dustem_plugin).(i))[*,1] ENDIF IF total(strsplit((*(*!dustem_scope).(i)),'+',/extract) EQ 'ADD_USED') THEN BEGIN U_spec+=(*(*!dustem_plugin).(i))[*,2] ENDIF ENDFOR P=sqrt(Q_spec^2+U_spec^2) ENDIF IF isa(!dustem_data.polsed) THEN dustem_polsed = (*!dustem_data.polsed).values * 0. ELSE dustem_polsed = (*!dustem_data.polfrac).values * 0. ;stop if not isarray(P) THEN stop IF !dustem_do_cc NE 0 AND !dustem_never_do_cc EQ 0 THEN BEGIN message,'DOING color correction calculations',/info ENDIF ELSE BEGIN message,'SKIPPING color correction calculations',/info ENDELSE IF isa(!dustem_data.polsed) THEN ind_polsed=where((*!dustem_data.polsed).filt_names NE 'SPECTRUM',count_polsed) ELSE ind_polsed=where((*!dustem_data.polfrac).filt_names NE 'SPECTRUM',count_polsed) IF count_polsed NE 0 THEN BEGIN IF isa(!dustem_data.polsed) THEN filter_names=((*!dustem_data.polsed).filt_names)(ind_polsed) ELSE filter_names=((*!dustem_data.polfrac).filt_names)(ind_polsed) spolsed=dustem_cc(stp.polsed.wav,P,filter_names,cc=cc) dustem_polsed[ind_polsed]=spolsed ENDIF ;stop ;For spectrum data points, interpolate in log-log. ;Linear interpolation leads to wrong values, in particular where few ;wavelengths points exist in the model (long wavelengths). IF isa(!dustem_data.polsed) THEN ind_spec=where((*!dustem_data.polsed).filt_names EQ 'SPECTRUM',count_spec) ELSE ind_spec=where((*!dustem_data.polfrac).filt_names EQ 'SPECTRUM',count_spec) IF count_spec NE 0 THEN BEGIN IF isa(!dustem_data.polsed) THEN dustem_polsed(ind_spec)=interpol(P,stp.polsed.wav,(((*!dustem_data.polsed).wav)(ind_spec))) ELSE dustem_polsed(ind_spec)=interpol(P,stp.polsed.wav,(((*!dustem_data.polfrac).wav)(ind_spec))) ENDIF out_st=stp ;clean pointers heap_gc the_end: RETURN,dustem_polsed END