dustem_compute_polsed.pro
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FUNCTION dustem_compute_polsed,p_dim,$
st=st,$
P_spec=P_spec,$
SP_spec=SP_spec,$
dustem_polfrac=dustem_polfrac,$
dustem_sed=dustem_sed,$
help=help
;+
; NAME:
; dustem_compute_polsed
;
; PURPOSE:
; Computes a Polarized SED for a given Dustem spectrum
;
; CATEGORY:
; DustEMWrap, Mid-Level, Distributed
;
; CALLING SEQUENCE:
; sed=dustem_compute_polsed(p_dim[,st=][,P_spec=][,SP_spec=][,dustem_polfrac=][,dustem_sed=][,/help])
;
; INPUTS:
; p_dim = parameter values
;
; OPTIONAL INPUT PARAMETERS:
; st = Dustem structure
; dustem_sed = Computed emission for spectrum points in !dustem_data
;
; OUTPUTS:
; sed = computed SED for filters in !dustem_data
; dustem_polsed = Computed polarized emission for spectrum points in !dustem_data
; P_spec = Dustem polarized emission output
; SP_spec = Dustem polarized emission fraction
; dustem_polfrac = Computed polarization emission fraction for spectrum points in !dustem_data
;
; OPTIONAL OUTPUT PARAMETERS:
; st = Dustem structure
; dustem_sed = Computed emission for spectrum points in !dustem_data
;
; ACCEPTED KEY-WORDS:
; help = If set, print this help
;
; COMMON BLOCKS:
; None
;
; SIDE EFFECTS:
; None
;
; RESTRICTIONS:
; The DustEM fortran code must be installed
; The DustEMWrap idl code must be installed
;
; PROCEDURE:
; None
;
; EXAMPLES
;
; MODIFICATION HISTORY:
; Written by J.-Ph. Bernard
; 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_compute_polsed'
dustem_polsed=0.
goto,the_end
ENDIF
IF not keyword_set(st) THEN BEGIN
dustem_activate_plugins,p_dim/(*(*!dustem_fit).param_init_values),st=st
;st=dustem_run(p_dim)
ENDIF
If keyword_set(result) THEN result=sti
fact = 1.e4*(*!dustem_HCD)/(4.*!pi)/(3.e8/1.e-6/(st.polsed).wav)*1.e20/1.e7
P_spec = st.polsed.em_tot*fact ;This is Polarized intensity P
stI = st.sed.em_tot*fact ;This is Total intensity I
out=0.
Nwaves=(size(P_spec))[1]
frac=P_spec/stI
tes=where(finite(frac) eq 0)
frac(tes)=0.
;This block was added to generate the polarization fraction spectrum with the plugins contributions.
;smallp (polfrac) is naturally not an additive quantity.
;NB: if plugins that replace the total emission given by the fortran executable exist,
;the need to add a block with a 'REPLPACE_SED' scope as for the 'REPLACE_POLSED' below, may arise.
scopes=tag_names((*!dustem_plugin))
IF scopes[0] NE 'NONE' THEN BEGIN
;IF ptr_valid(!dustem_plugin) THEN BEGIN
for i=0L,n_tags(*!dustem_plugin)-1 do begin
if total(strsplit((*(*!dustem_plugin).(i).scope),'+',/extract) eq 'ADD_SED') then stI+=(*(*!dustem_plugin).(i).spec)[*,0]
endfor
ENDIF
IF scopes[0] NE 'NONE' THEN BEGIN
FOR i=0L,n_tags(*!dustem_plugin)-1 DO BEGIN
IF total(strsplit((*(*!dustem_plugin).(i).scope),'+',/extract) EQ 'REPLACE_POLSED') THEN BEGIN
Q_spec=(*(*!dustem_plugin).(i).spec)[*,1]
U_spec=(*(*!dustem_plugin).(i).spec)[*,2]
;make sure sti hasn't been replaced. But this is not happening in the near future
ENDIF
ENDFOR
ENDIF
IF ~isa(Q_spec) && ~isa(U_spec) THEN BEGIN
polar_ippsi2iqu,stI,Q_spec,U_spec,frac,replicate(!dustem_psi,Nwaves) ;the user needs to set this pointer somewhere
SP_spec = frac
ENDIF
IF scopes[0] NE 'NONE' THEN BEGIN
FOR i=0L,n_tags(*!dustem_plugin)-1 DO BEGIN
IF total(strsplit((*(*!dustem_plugin).(i).scope),'+',/extract) EQ 'ADD_POLSED') THEN BEGIN
Q_spec+=(*(*!dustem_plugin).(i).spec)[*,1]
U_spec+=(*(*!dustem_plugin).(i).spec)[*,2]
ENDIF
ENDFOR
ENDIF
P_spec=sqrt(Q_spec^2+U_spec^2)
SP_spec=P_spec/Sti
dustem_polsed = (*(*!dustem_data).qsed).values * 0.
if not isarray(P_spec) THEN stop ;I don't understand this test. The only thing it can indicate is a problem with the dust parameters or the fortran executable. But in my opinion these tests would be
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
ind_polsed=where((*(*!dustem_data).qsed).filt_names NE 'SPECTRUM',count_polsed)
IF count_polsed NE 0 THEN BEGIN
filter_names=((*(*!dustem_data).qsed).filt_names)(ind_polsed)
spolsed=dustem_cc(st.polsed.wav,P_spec,filter_names,cc=cc)
dustem_polsed[ind_polsed]=spolsed
ENDIF
;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).
;I believe this to be automatic because the provided dustem spectra are already sampled on a log-log grid.
ind_spec=where((*(*!dustem_data).qsed).filt_names EQ 'SPECTRUM',count_spec)
IF count_spec NE 0 THEN dustem_polsed(ind_spec)=interpol(P_spec,st.polsed.wav,(((*(*!dustem_data).qsed).wav)(ind_spec)))
;GENERATING THE INTERPOLATES FOR POLFRAC (dustem_polfrac)
if !run_lin then begin
;stop
if not keyword_set(dustem_sed) then dustem_sed = dustem_compute_sed(p_dim,st=st,SED_spec=SED_spec)
If n_elements(dustem_sed) ne n_elements(dustem_polsed) then begin
if n_elements(dustem_sed) gt n_elements(dustem_polsed) then begin
dustem_polsed_x = dustem_polsed
dustem_sed_x = dustem_polsed ;meaning dustem_sed needs to be modified
nwaves = n_elements(dustem_polsed)
for i=0L,nwaves-1 do begin
j=where((*(*!dustem_data).sed).wav EQ (*(*!dustem_data).polfrac).wav(i),testwav)
if testwav ne 0 then dustem_sed_x(i) = dustem_sed(j(0))
endfor
endif ELSE begin
dustem_polsed_x = dustem_sed
dustem_sed_x = dustem_sed ;meaning dustem_polsed needs to be modified
nwaves = n_elements(dustem_sed)
for i=0L,nwaves-1 do begin
j=where((*(*!dustem_data).sed).wav EQ (*(*!dustem_data).polfrac).wav(i),testwav)
if testwav ne 0 then dustem_polsed_x(i) = dustem_polsed(j(0))
endfor
ENDELSE
endif ELSE BEGIN
dustem_polsed_x = dustem_polsed
dustem_sed_x = dustem_sed
ENDELSE
dustem_polfrac = dustem_polsed_x/dustem_sed_x
ENDIF
;clean pointers
heap_gc
the_end:
RETURN,dustem_polsed
END