PRO dustem_make_polarization_sed_example,model=model,help=help ;+ ; NAME: ; dustem_make_polarization_sed_example ; PURPOSE: ; This is an example of how to generate an SED using dustemwrap. ; It is meant to be an example to follow when writing your own ; programs using the dustem IDL/GDL wrapper. ; CATEGORY: ; Dustem ; CALLING SEQUENCE: ; dustem_make_polarization_sed_example[,model=][,/help] ; INPUTS: ; None ; OPTIONAL INPUT PARAMETERS: ; None ; OUTPUTS: ; None ; OPTIONAL OUTPUT PARAMETERS: ; None ; ACCEPTED KEY-WORDS: ; model = if set, name of the Dustem dust model to use (default='G17_MODELC') ; help = If set print this help ; COMMON BLOCKS: ; None ; SIDE EFFECTS: ; None ; RESTRICTIONS: ; The dustem idl wrapper must be installed ; PROCEDURE: ; None ; EXAMPLES ; dustem_make_polarization_sed_example ; dustem_make_polarization_sed_example,model='G17_MODELD' ; MODIFICATION HISTORY: ; Written by J.P. Bernard June 29th 2011 ; 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_fit_sed_polsed_readme' goto,the_end ENDIF dustem_define_la_common ;=== initialise dustem ;dustem_init,mode='COMPIEGNE_ETAL2010',/pol ;use_mode='G17_MODELA' use_mode='G17_MODELC' dustem_init,mode=use_mode,kwords=['logn-chrg-spin','plaw-pol','plaw-pol'],/pol !dustem_verbose=1 !dustem_show_plot=1 !dustem_nocatch=1 filters=['IRAS1','IRAS2','IRAS3','IRAS4','PACS3','SPIRE1','SPIRE2','SPIRE3','HFI2','HFI3','HFI4','HFI5','HFI6','LFI1','LFI2','LFI3'] Nfilt=n_elements(filters) sed=dustem_initialize_sed(Nfilt) sed.filter=filters sed.wave=dustem_filter2wav(filters) sed.instru=dustem_filter2instru(filters) ;INITIALIZING IQU and associated errors to avoid problems when checking SED in dustem_set_data.pro sed[*].StokesI=1. sed.StokesQ=sed.StokesI/100. sed.StokesU=sed.StokesI/100. sed.SigmaII=sed.StokesI/100. sed.SigmaQQ=sed.StokesI/100. sed.SigmaUU=sed.StokesI/100. sed.SigmaIQ=sed.StokesI/100. sed.SigmaIU=sed.StokesI/100. sed.SigmaQU=sed.StokesI/100. ;INITIALIZING THE !dustem_data tags that will be internally used dustem_set_data,sed help,!dustem_data ;=== Set which model parameters to use for the SED ;=== This does not work, for some reason .... pd = [ $ '(*!dustem_params).G0', $ ;G0 '(*!dustem_params).grains(0).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(1).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(2).mdust_o_mh', $ ;PAH1 mass fraction 'dustem_plugin_modify_dust_pol_1', $ ;This will set the polarization fraction 'dustem_plugin_modify_dust_pol_2' $ ;This will set the polarization angle ] p_truth=[1.,7.8000E-04,7.8000E-04,7.8000E-04,0.2,45.] ;=== Set which model parameters to use for the SED pd = [ $ '(*!dustem_params).G0', $ ;G0 '(*!dustem_params).grains(0).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(1).mdust_o_mh',$ ;PAH0 mass fraction '(*!dustem_params).grains(2).mdust_o_mh' $ ;PAH1 mass fraction ] p_truth=[1.,7.8000E-04,7.8000E-04,7.8000E-04] ;iv=p_truth+[0.,8.e-4,8.e-4,8.e-4] ;shifted from solution iv=p_truth Npar=n_elements(pd) ulimed=replicate(0,Npar) llimed=replicate(1,Npar) llims=replicate(0,Npar) dustem_init_parinfo,pd,iv,up_limited=ulimed,lo_limited=llimed,up_limits=ulims,lo_limits=llims dustem_init_plugins,pd ;Here fortran fails when pluggins are activated and/or type-keywods exist dustem_Ised=dustem_compute_sed(p_truth,ssti) ;sst is not set on purpose, for dustem_compute_sed to compute the sed using fortran code toto=dustem_compute_stokes(p_truth,sstqu,dustem_Qsed,dustem_Used) ;this procedure also allows for the extraction of the spectra ;toto=dustem_compute_stokes(p_dim,st,dustem_qsed,dustem_used,Q_spec,U_spec,PSI_spec,dustem_psi_em,out_st=out_st,_extra=extra) print,dustem_Qsed,dustem_Used ;=modifies the Fortran outputs Q,U SED values to reflect a fixed polarization fraction and angle ;normaly, this could also be doen using the plugin: ;toto=dustem_plugin_modify_dust_pol(ssti, key=key, val=val, scope=scope, paramtag=paramtag, help=help) frac_used=0.01 ;1% psi_used=10. ;10 degrees smallp=dustem_Ised*0.+frac_used psi=dustem_Ised*0.+psi_used polar_ippsi2iqu,dustem_Ised,Q,U,smallp,psi ;print,Q,U sed.stokesI=dustem_Ised sed.stokesQ=Q sed.stokesU=U ;=== set arbitrary uncertainties sed.sigmaII=abs(sed.StokesI*0.000001) sed.sigmaQQ=abs(sed.StokesQ*0.000001) sed.sigmaUU=abs(sed.StokesU*0.000001) sed.sigmaIQ=0. sed.sigmaIU=0. sed.sigmaQU=0. print,sed.stokesI,sed.stokesQ,sed.stokesU print,sed.sigmaII,sed.sigmaQQ,sed.sigmaUU ;stop ;======== save the SED filename='/tmp/fake_polarization_sed.xcat' write_xcat,sed,filename message,'Wrote '+filename,/continue str='cp /tmp/fake_polarization_sed.xcat '+!dustem_wrap_soft_dir+'/Data/EXAMPLE_OBSDATA/example_sed3.xcat' spawn,str the_end: END