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suaer.F90 @ 2740

Last change on this file since 2740 was 2584, checked in by romain.vande, 3 years ago
Second stage of implementation of Open_MP in the physic. Run with callrad=.true.
File size: 20.9 KB

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1	SUBROUTINE suaer
2	use dimradmars_mod, only: longrefvis, longrefir, nsizemax, long1vis, &
3	long2vis, long3vis, long1ir, long2ir, long1co2, &
4	long2co2, nsun, nir,&
5	naerkind, name_iaer, &
6	iaer_dust_conrath,iaer_dust_doubleq,&
7	iaer_dust_submicron,iaer_h2o_ice,&
8	iaer_stormdust_doubleq,iaer_topdust_doubleq,&
9	file_id,radiustab, gvis, omegavis, &
10	QVISsQREF, gIR, omegaIR, &
11	QIRsQREF, QREFvis, QREFir, &
12	omegaREFvis, omegaREFir, &
13	nsize
14	use datafile_mod, only: datadir
15	USE mod_phys_lmdz_transfert_para, ONLY: bcast
16	IMPLICIT NONE
17	!==================================================================
18	! Purpose.
19	! --------
20	! initialize yomaer, the common that contains the
21	! radiative characteristics of the aerosols
22	!
23	! AUTHORS.
24	! --------
25	! Richard Fournier (1996) Francois Forget (1996)
26	! Frederic Hourdin
27	! Jean-jacques morcrette ECMWF
28	! MODIF Francois Forget (2000)
29	! MODIF Franck Montmessin (add water ice)
30	! MODIF J.-B. Madeleine 2008W27
31	! - Optical properties read in ASCII files
32	! - Add varying radius of the particules
33	!
34	! Summary.
35	! --------
36	!
37	! Read the optical properties -> Mean -> Variable assignment
38	! (ASCII files) (see yomaer.h)
39	! wvl(nwvl) longsun
40	! ep(nwvl) epav QVISsQREF(nsun)
41	! omeg(nwvl) omegav omegavis(nsun)
42	! gfactor(nwvl) gav gvis(nsun)
43	!
44	!==================================================================
45
46	! Includes:
47
48	include "callkeys.h"
49
50	! Optical properties (read in external ASCII files)
51	INTEGER :: nwvl ! Number of wavelengths in
52	! the domain (VIS or IR)
53	REAL, DIMENSION(:),&
54	ALLOCATABLE, SAVE :: wvl ! Wavelength axis
55	REAL, DIMENSION(:),&
56	ALLOCATABLE, SAVE :: radiusdyn ! Particle size axis
57
58	REAL, DIMENSION(:,:),&
59	ALLOCATABLE, SAVE :: ep,& ! Extinction coefficient Qext
60	omeg,& ! Single Scattering Albedo
61	gfactor ! Assymetry Factor
62
63	!$OMP THREADPRIVATE(wvl,radiusdyn,ep,omeg,gfactor)
64
65	! Local variables:
66
67	INTEGER :: iaer ! Aerosol index
68	INTEGER :: idomain ! Domain index (1=VIS,2=IR)
69	INTEGER :: iir ! IR channel index
70	! iir=1: 15um CO2 bands
71	! iir=2 : CO2 band wings
72	! iir=3 : 9 um band
73	! iir=4 : Far IR
74	INTEGER :: isun ! Solar band index
75	INTEGER :: isize ! Particle size index
76	INTEGER :: jfile ! ASCII file scan index
77	INTEGER :: file_unit = 60
78	LOGICAL :: file_ok, endwhile
79	CHARACTER(LEN=132) :: scanline ! ASCII file scanning line
80	INTEGER :: read_ok
81
82	! I/O of "aerave" (subroutine averaging spectrally
83	! sing.scat.parameters)
84
85	REAL tsun ! Sun brightness temperature (for SW)
86	REAL tsol ! Surface reference brightness temp (LW)
87	REAL longref ! reference wavelengths
88	REAL longsun(nsun+1) ! solar band boundaries
89	REAL longir(nir+1) ! IR band boundaries
90	REAL epref ! reference extinction ep
91	! at wavelength "longref"
92	REAL epav(nir) ! average ep
93	! (= <Qext>/Qext(longref) if epref=1)
94	REAL omegav(nir) ! Average sing.scat.albedo
95	REAL gav(nir) ! Average assymetry parameter
96
97	!$OMP MASTER
98
99	!==================================================================
100	!---- Please indicate the names of the optical property files below
101	! Please also choose the reference wavelengths of each aerosol
102
103	DO iaer = 1, naerkind ! Loop on aerosol kind
104	aerkind: SELECT CASE (name_iaer(iaer))
105	!==================================================================
106	CASE("dust_conrath") aerkind ! Typical dust profile
107	!==================================================================
108	! Visible domain:
109	file_id(iaer,1) = 'optprop_dustvis_TM.dat' !M.Wolff TM
110	! file_id(iaer,1) = 'optprop_dustvis_clancy.dat' !Clancy-Lee
111	! file_id(iaer,1) = 'optprop_dustvis_ockert.dat' !Ockert-Bell
112	! Infrared domain:
113	file_id(iaer,2) = 'optprop_dustir_TM.dat' !M.Wolff TM
114	! Toon-Forget + solsir=2 using Clancy-Lee
115	! file_id(iaer,2) = 'optprop_dustir_clancy.dat'
116	! Toon-Forget + solsir=2 using Ockert-Bell
117	! file_id(iaer,2) = 'optprop_dustir_ockert.dat'
118	! Reference wavelength in the visible:
119	longrefvis(iaer)=0.67E-6
120	! For dust: change readtesassim accordingly;
121	! Reference wavelength in the infrared:
122	longrefir(iaer)=dustrefir
123	!==================================================================
124	CASE("dust_doubleq") aerkind! Two-moment scheme for dust
125	!==================================================================
126	! Visible domain:
127	file_id(iaer,1) = 'optprop_dustvis_TM_n50.dat' !T-Matrix
128	! file_id(iaer,1) = 'optprop_dustvis_n50.dat' !Mie
129	! Infrared domain:
130	file_id(iaer,2) = 'optprop_dustir_n50.dat' !Mie
131	! Reference wavelength in the visible:
132	longrefvis(iaer)=0.67E-6
133	! If not equal to 0.67e-6 -> change readtesassim accordingly;
134	! Reference wavelength in the infrared:
135	longrefir(iaer)=dustrefir
136	!==================================================================
137	CASE("dust_submicron") aerkind ! Small dust population
138	!==================================================================
139	! Visible domain:
140	file_id(iaer,1) = 'optprop_dustvis_01um_TM.dat' !M.Wolff
141	! Infrared domain:
142	file_id(iaer,2) = 'optprop_dustir_01um_TM.dat' !M.Wolff
143	! Reference wavelength in the visible:
144	longrefvis(iaer)=0.67E-6
145	! If not equal to 0.67e-6 -> change readtesassim accordingly;
146	! Reference wavelength in the infrared:
147	longrefir(iaer)=dustrefir
148	!==================================================================
149	CASE("h2o_ice") aerkind ! Water ice crystals
150	!==================================================================
151	! Visible domain:
152	file_id(iaer,1) = 'optprop_icevis_n30.dat' !Warren
153	! file_id(iaer,1) = 'optprop_icevis.dat' !Warren
154	! Infrared domain:
155	file_id(iaer,2) = 'optprop_iceir_n30.dat' !Warren
156	! file_id(iaer,2) = 'optprop_iceir.dat' !Warren
157	! Reference wavelength in the visible:
158	longrefvis(iaer)=0.67E-6 ! 1.5um OMEGA/MEx
159	! Reference wavelength in the infrared:
160	longrefir(iaer)=12.1E-6 ! 825cm-1 TES/MGS
161	!==================================================================
162	CASE("co2_ice") aerkind ! CO2 ice crystals
163	!==================================================================
164	! Visible domain:
165	file_id(iaer,1) = 'optprop_co2ice_vis_n50.dat' !
166	! Infrared domain:
167	file_id(iaer,2) = 'optprop_co2ice_ir_n50.dat' !
168	! Reference wavelength in the visible:
169	longrefvis(iaer) = 0.67E-6 ! 1.5um OMEGA/MEx
170	! Reference wavelength in the infrared:
171	longrefir(iaer) = 4.26E-6 ! 2347 cm-1 OMEGA/MEx
172	!==================================================================
173	CASE("stormdust_doubleq") aerkind ! Two-moment scheme for stormdust - radiative properties
174	!==================================================================
175	! Visible domain:
176	file_id(iaer,1) = 'optprop_dustvis_TM_n50.dat' !T-Matrix
177	! Infrared domain:
178	file_id(iaer,2) = 'optprop_dustir_n50.dat' !Mie
179	! Reference wavelength in the visible:
180	longrefvis(iaer)=0.67E-6
181	! If not equal to 0.67e-6 -> change readtesassim accordingly;
182	! Reference wavelength in the infrared:
183	longrefir(iaer)=dustrefir
184	!==================================================================
185	CASE("topdust_doubleq") aerkind ! Two-moment scheme for topdust - radiative properties
186	!==================================================================
187	! Visible domain:
188	file_id(iaer,1) = 'optprop_dustvis_TM_n50.dat' !T-Matrix
189	! Infrared domain:
190	file_id(iaer,2) = 'optprop_dustir_n50.dat' !Mie
191	! Reference wavelength in the visible:
192	longrefvis(iaer)=0.67E-6
193	! If not equal to 0.67e-6 -> change readtesassim accordingly;
194	! Reference wavelength in the infrared:
195	longrefir(iaer)=dustrefir
196	!==================================================================
197	END SELECT aerkind
198	!==================================================================
199	WRITE(,) "Scatterer: ",trim(name_iaer(iaer))
200	WRITE(,) " corresponding files: "
201	WRITE(,) "VIS: ",trim(file_id(iaer,1))
202	WRITE(,) "IR : ",trim(file_id(iaer,2))
203	!==================================================================
204	ENDDO ! iaer (loop on aerosol kind)
205
206	! Initializations:
207
208	radiustab(1:naerkind,1:2,1:nsizemax)=0
209
210	gvis(1:nsun,1:naerkind,1:nsizemax)=0
211	omegavis(1:nsun,1:naerkind,1:nsizemax)=0
212	QVISsQREF(1:nsun,1:naerkind,1:nsizemax)=0
213
214	gIR(1:nir,1:naerkind,1:nsizemax)=0
215	omegaIR(1:nir,1:naerkind,1:nsizemax)=0
216	QIRsQREF(1:nir,1:naerkind,1:nsizemax)=0
217
218	QREFvis(1:naerkind,1:nsizemax)=0
219	QREFir(1:naerkind,1:nsizemax)=0
220	omegaREFvis(1:naerkind,1:nsizemax)=0
221	omegaREFir(1:naerkind,1:nsizemax)=0
222
223	DO iaer = 1, naerkind ! Loop on aerosol kind
224	DO idomain = 1, 2 ! Loop on radiation domain (VIS or IR)
225
226	!==================================================================
227	! 1. READ OPTICAL PROPERTIES
228	!==================================================================
229
230	! 1.1 Open the ASCII file
231
232	INQUIRE(FILE=TRIM(datadir)//&
233	'/'//TRIM(file_id(iaer,idomain)),&
234	EXIST=file_ok)
235	IF(.NOT.file_ok) THEN
236	write(,)'Problem opening ',&
237	TRIM(file_id(iaer,idomain))
238	write(,)'It should be in: ',&
239	TRIM(datadir)
240	write(,)'1) You can change this directory address in callfis.def with'
241	write(,)' datadir=/path/to/datafiles'
242	write(,)'2) If ',&
243	TRIM(file_id(iaer,idomain)),&
244	' is a LMD reference datafile, it'
245	write(,)' can be obtained online on:'
246	write(,)' http://www.lmd.jussieu.fr/',&
247	'~lmdz/planets/mars/datadir'
248	write(,)'3) If the name of the file is wrong, you can'
249	write(,)' change it in file phymars/suaer.F90. Just'
250	write(,)' modify the variable called file_id.'
251	CALL abort_physic("suaer","missing file "//trim(file_id(iaer,idomain)),1)
252	ENDIF
253	OPEN(UNIT=file_unit,&
254	FILE=TRIM(datadir)//&
255	'/'//TRIM(file_id(iaer,idomain)),&
256	FORM='formatted')
257
258	! 1.2 Allocate the optical property table
259
260	jfile = 1
261	endwhile = .false.
262	DO WHILE (.NOT.endwhile)
263	READ(file_unit,*,iostat=read_ok) scanline
264	if (read_ok.ne.0) then
265	write(,)' readoptprop: Error reading file',&
266	TRIM(datadir)//&
267	'/'//TRIM(file_id(iaer,idomain))
268	call abort_physic("suaer","problem reading "//trim(file_id(iaer,idomain)),1)
269	endif
270	IF ((scanline(1:1) .ne. '#').and.&
271	(scanline(1:1) .ne. ' ')) THEN
272	BACKSPACE(file_unit)
273	reading1_seq: SELECT CASE (jfile) ! ====================
274	CASE(1) reading1_seq ! nwvl ----------------------------
275	read(file_unit,*,iostat=read_ok) nwvl
276	if (read_ok.ne.0) then
277	write(,)' readoptprop: Error while reading line:',&
278	trim(scanline)
279	write(,)' of file',&
280	TRIM(datadir)//&
281	'/'//TRIM(file_id(iaer,idomain))
282	call abort_physic("suaer",&
283	"problem reading "//trim(file_id(iaer,idomain)),1)
284	endif
285	jfile = jfile+1
286	CASE(2) reading1_seq ! nsize ---------------------------
287	read(file_unit,*,iostat=read_ok) nsize(iaer,idomain)
288	if (read_ok.ne.0) then
289	write(,)' readoptprop: Error while reading line:',&
290	trim(scanline)
291	write(,)' of file',&
292	TRIM(datadir)//&
293	'/'//TRIM(file_id(iaer,idomain))
294	call abort_physic("suaer",&
295	"problem reading "//trim(file_id(iaer,idomain)),1)
296	endif
297	endwhile = .true.
298	CASE DEFAULT reading1_seq ! ----------------------------
299	WRITE(,) 'readoptprop: ',&
300	'Error while loading optical properties.'
301	call abort_physic("suaer",&
302	"problem loading optical properties",1)
303	END SELECT reading1_seq ! ==============================
304	ENDIF
305	ENDDO
306
307	ALLOCATE(wvl(nwvl)) ! wvl
308	ALLOCATE(radiusdyn(nsize(iaer,idomain))) ! radiusdyn
309	ALLOCATE(ep(nwvl,nsize(iaer,idomain))) ! ep
310	ALLOCATE(omeg(nwvl,nsize(iaer,idomain))) ! omeg
311	ALLOCATE(gfactor(nwvl,nsize(iaer,idomain))) ! g
312
313	! 1.3 Read the data
314
315	jfile = 1
316	endwhile = .false.
317	DO WHILE (.NOT.endwhile)
318	READ(file_unit,*) scanline
319	IF ((scanline(1:1) .ne. '#').and.&
320	(scanline(1:1) .ne. ' ')) THEN
321	BACKSPACE(file_unit)
322	reading2_seq: SELECT CASE (jfile) ! ====================
323	CASE(1) reading2_seq ! wvl -----------------------------
324	read(file_unit,*) wvl
325	jfile = jfile+1
326	CASE(2) reading2_seq ! radiusdyn -----------------------
327	read(file_unit,*) radiusdyn
328	jfile = jfile+1
329	CASE(3) reading2_seq ! ep ------------------------------
330	isize = 1
331	DO WHILE (isize .le. nsize(iaer,idomain))
332	READ(file_unit,*) scanline
333	IF ((scanline(1:1) .ne. '#').and.&
334	(scanline(1:1) .ne. ' ')) THEN
335	BACKSPACE(file_unit)
336	read(file_unit,*) ep(:,isize)
337	isize = isize + 1
338	ENDIF
339	ENDDO
340	jfile = jfile+1
341	CASE(4) reading2_seq ! omeg ----------------------------
342	isize = 1
343	DO WHILE (isize .le. nsize(iaer,idomain))
344	READ(file_unit,*) scanline
345	IF ((scanline(1:1) .ne. '#').and.&
346	(scanline(1:1) .ne. ' ')) THEN
347	BACKSPACE(file_unit)
348	read(file_unit,*) omeg(:,isize)
349	isize = isize + 1
350	ENDIF
351	ENDDO
352	jfile = jfile+1
353	CASE(5) reading2_seq ! gfactor -------------------------
354	isize = 1
355	DO WHILE (isize .le. nsize(iaer,idomain))
356	READ(file_unit,*) scanline
357	IF ((scanline(1:1) .ne. '#').and.&
358	(scanline(1:1) .ne. ' ')) THEN
359	BACKSPACE(file_unit)
360	read(file_unit,*) gfactor(:,isize)
361	isize = isize + 1
362	ENDIF
363	ENDDO
364	endwhile = .true.
365	CASE DEFAULT reading2_seq ! ----------------------------
366	WRITE(,) 'suaer.F90: ',&
367	'Error while loading optical properties.'
368	call abort_physic("suaer",&
369	"problem loading optical properties",1)
370	END SELECT reading2_seq ! ==============================
371	ENDIF
372	ENDDO
373
374	! 1.4 Close the file
375
376	CLOSE(file_unit)
377
378
379	!==================================================================
380	! 2. AVERAGED PROPERTIES AND VARIABLE ASSIGNMENTS
381	!==================================================================
382	domain: SELECT CASE (idomain)
383	!==================================================================
384	CASE(1) domain ! VISIBLE DOMAIN (idomain=1)
385	!==================================================================
386
387	! 2.1 Parameters
388	tsun=6000.E+0
389	longsun(1)=long1vis
390	longsun(2)=long2vis
391	longsun(3)=long3vis
392	longref=longrefvis(iaer)
393	epref=1.E+0
394
395	DO isize=1,nsize(iaer,idomain)
396	! test that there is enough room to store the data
397	if (isize.gt.nsizemax) then
398	write(,) "suaer: Error ! nsizemax is too small!"
399	write(,) " nsizemax=",nsizemax
400	write(,) " you must increase the value of nsizemax"
401	write(,) " in dimradmars_mod !"
402	call abort_physic("suaer","nsizemax too small",1)
403	endif
404	! ------------------------------------------------
405	! 2.2 Save the particle sizes
406	radiustab(iaer,idomain,isize)=radiusdyn(isize)
407	! 2.3 Averaged optical properties (GCM channels)
408	! Notice: Aerave also computes the extinction coefficient and
409	! single scattering albedo at reference wavelength
410	! (called QREFvis and OMEGAREFvis, same in the IR,
411	! and not epref, which is a different parameter);
412	! Reference wavelengths are defined for each aerosol in
413	! dimradmars_mod.
414
415	CALL aerave ( nwvl,&
416	wvl(:),ep(:,isize),omeg(:,isize),gfactor(:,isize),&
417	longref,epref,tsun,&
418	nsun,longsun, epav,omegav,gav,&
419	QREFvis(iaer,isize),omegaREFvis(iaer,isize) )
420	! 2.4 Variable assignements (declared by yomaer.h)
421	DO isun=1,nsun
422	QVISsQREF(isun,iaer,isize)=epav(isun)
423	gvis(isun,iaer,isize)=gav(isun)
424	omegavis(isun,iaer,isize)=omegav(isun)
425	END DO
426	! 2.5 Output display
427	! WRITE(,) 'Les donnees spectrales :'
428	! WRITE(,) 'Solaire (SW) ---->'
429	! WRITE(,) 'Aerosol number: ', iaer
430	! WRITE(,) 'Rayon aerosol: ', radiustab(iaer,idomain,isize)
431	! WRITE(,) '<Qext>/Qext(longrefvis) ; omega ; g'
432	! DO isun=1,nsun
433	! WRITE(,) QVISsQREF(isun,iaer,isize),&
434	! omegavis(isun,iaer,isize),&
435	! gvis(isun,iaer,isize)
436	! ENDDO
437	! WRITE(,) 'QREFvis(',iaer,isize,') = ',QREFvis(iaer,isize)
438	! WRITE(,) 'omegaREFvis(',iaer,isize,') = ',&
439	! omegaREFvis(iaer,isize)
440	! ------------------------------------------------
441	ENDDO
442
443	!==================================================================
444	CASE(2) domain ! INFRARED DOMAIN (idomain=2)
445	!==================================================================
446
447	DO isize=1,nsize(iaer,idomain) ! ----------------------------------
448
449	! 2.1 solsir is not used anymore; division of Qext(IR) by solsir
450	! has to be done in the input ASCII files (if necessary).
451
452	! 2.2 Save the particle sizes
453	radiustab(iaer,idomain,isize)=radiusdyn(isize)
454
455	! 2.3 Parameters
456
457	tsol=215.D+0
458	longir(1)=long1ir
459	longir(2)=long1co2
460	longir(3)=long2co2
461	longir(4)=long2ir
462	longref=longrefir(iaer)
463	epref=1.E+0
464
465	! 2.4 Averaged optical properties (GCM channels)
466	! epav is <QIR>/Qext(longrefir) since epref=1
467	! Notice: Aerave also Computes the extinction coefficient at
468	! reference wavelength (called QREFvis or QREFir,
469	! and not epref, which is a different parameter);
470	! Reference wavelengths are defined for each aerosol in
471	! dimradmar_mod.
472
473	CALL aerave ( nwvl,&
474	wvl(:),ep(:,isize),omeg(:,isize),gfactor(:,isize),&
475	longref,epref,tsol,&
476	nir-1,longir,epav,omegav,gav,&
477	QREFir(iaer,isize),omegaREFir(iaer,isize) )
478	! WRITE(,) 'QREFir(',iaer,isize,') = ',QREFir(iaer,isize)
479	! WRITE(,) 'omegaREFir(',iaer,isize,') = ',&
480	! omegaREFir(iaer,isize)
481
482	! 2.5 Computing <QIR>/Qext(longrefvis)
483
484	DO iir=1,nir-1
485	! WRITE(,) 'QIRsQREFir Channel ',iir,': ',epav(iir)
486	epav(iir)= epav(iir) * QREFir(iaer,isize) / &
487	QREFvis(iaer,isize)
488	ENDDO
489	! WRITE(,) 'Aerosol number', iaer
490	! WRITE(,) 'Particle size: ',radiustab(iaer,idomain,isize)
491	! WRITE(,) 'Rapport Solaire/IR:',&
492	! QREFvis(iaer,isize) / QREFir(iaer,isize)
493
494	! 2.6 Variable assignements
495	! (variables are declared by yomaer.h)
496
497	! Single scattering properties
498	! in each of the "nir" bands
499	! (cf. dimradmars_mod)
500
501	! iir=1 : central 15um CO2 bands
502	QIRsQREF(1,iaer,isize)=epav(2)
503	omegaIR(1,iaer,isize)=omegav(2)
504	gIR(1,iaer,isize)=gav(2)
505
506	! iir=2 : CO2 band wings
507	! (same properties than for central part)
508	QIRsQREF(2,iaer,isize)=epav(2)
509	omegaIR(2,iaer,isize)=omegav(2)
510	gIR(2,iaer,isize)=gav(2)
511
512	! iir=3 : 9 um band [long1ir - long1co2]
513	QIRsQREF(3,iaer,isize)=epav(1)
514	omegaIR(3,iaer,isize)=omegav(1)
515	gIR(3,iaer,isize)=gav(1)
516
517	! iir=4 : Far IR [long2co2 - long2ir]
518	QIRsQREF(4,iaer,isize)=epav(3)
519	omegaIR(4,iaer,isize)=omegav(3)
520	gIR(4,iaer,isize)=gav(3)
521
522	! 2.7 Output display
523
524	! WRITE(,) 'AEROSOL PROPERTIES: Number ',iaer
525	! WRITE(,) 'Thermal IR (LW) ---->'
526	! WRITE(,) 'Particle size: ',radiustab(iaer,idomain,isize)
527	! WRITE(,) '<Qext>/Qext(longrefvis) ; omega ; g'
528	! DO iir=1,nir
529	! WRITE(,) QIRsQREF(iir,iaer,isize),omegaIR(iir,iaer,isize),&
530	! gIR(iir,iaer,isize)
531	! ENDDO
532	! WRITE(,) 'CO2: <Qabs>/Qext(longrefvis) = ',&
533	! QIRsQREF(1,iaer,isize)*(1-omegaIR(1,iaer,isize))
534	! WRITE(,) ''
535
536	ENDDO ! isize (particle size) -------------------------------------
537
538	END SELECT domain
539	!==================================================================
540	! 3. Deallocate temporary variables (read in ASCII files)
541	!==================================================================
542
543	DEALLOCATE(wvl) ! wvl
544	DEALLOCATE(radiusdyn) ! radiusdyn
545	DEALLOCATE(ep) ! ep
546	DEALLOCATE(omeg) ! omeg
547	DEALLOCATE(gfactor) ! g
548
549
550
551	END DO ! Loop on iaer
552	END DO ! Loop on idomain
553
554	!$OMP END MASTER
555
556	call bcast(longrefvis)
557	call bcast(longrefir)
558	call bcast(radiustab)
559	call bcast(gvis)
560	call bcast(omegavis)
561	call bcast(QVISsQREF)
562	call bcast(gIR)
563	call bcast(omegaIR)
564	call bcast(QIRsQREF)
565	call bcast(QREFvis)
566	call bcast(QREFir)
567	call bcast(omegaREFvis)
568	call bcast(omegaREFir)
569	call bcast(nsize)
570
571	!==================================================================
572	RETURN
573	END

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