/[volute]/trunk/projects/theory/snapdm/test/PDR_protocol.xml
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Contents of /trunk/projects/theory/snapdm/test/PDR_protocol.xml

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Revision 643 - (show annotations)
Fri Jun 27 17:10:36 2008 UTC (12 years, 5 months ago) by bourges.laurent
File MIME type: text/xml
File size: 11020 byte(s)
updated input & output XML instances
1 <?xml version="1.0" encoding="UTF-8"?>
2
3 <!--
4 Document : PDR_protocol.xml
5 Created on : 25 avril 2008, 18:00
6 Author : franck
7 Description:
8 This document is the first xml sample document for Protocol according to SimDB generated XML schemas (xsd).
9 -->
10 <s:aSimulator xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'
11 xmlns:s='http://www.ivoa.net/xml/SNAP/v0.1/SimDB'
12 xsi:schemaLocation='http://www.ivoa.net/xml/SNAP/v0.1/SimDB http://volute.googlecode.com/svn/trunk/projects/theory/snapdm/xsd/SimDB_root.xsd'>
13
14 <name>PDR Code 1.2</name>
15 <description>The Meudon PDR code 1.2 includes the radiative transfer method described by Gonzalez-Garcia et al. A and A 2007 </description>
16
17 <referenceURL>http://aristote.obspm.fr/MIS</referenceURL>
18
19 <publisherDID>voparis/luth/Pdr/1.0</publisherDID>
20
21 <created>2008-04-25T12:00:00</created>
22 <updated>2008-04-25T12:00:00</updated>
23
24 <status>published</status>
25
26 <!--
27 <contact>
28 <role>publisher</role>
29 <party>
30 <ivoId>ivo://voparis/luth</ivoId>
31 </party>
32 </contact>
33
34 <contact>
35 <role>contributor</role>
36 <party>
37 <ivoId>ivo://voparis/luth/Jacques_Le_Bourlot</ivoId>
38 </party>
39 </contact>
40
41 <contact>
42 <role>contributor</role>
43 <party>
44 <ivoId>ivo://voparis/luth/Evelyne_Roueff</ivoId>
45 </party>
46 </contact>
47 -->
48
49 <contact>
50 <role>creator</role>
51 <party>
52 <ivoId>ivo://voparis/luth/franck_le_petit</ivoId>
53 </party>
54 </contact>
55
56 <mainContact>
57 <ivoId>ivo://voparis/luth/franck_le_petit</ivoId>
58 </mainContact>
59
60 <code>http://aristote.obspm.fr/MIS</code>
61 <version>1.2</version>
62
63
64 <!-- generated content : begin -->
65
66
67 <parameterGroup>
68 <name>gas parameters</name>
69 <description>Parameters controling gas properties</description>
70 <member>
71 <parameter>
72 <xmlId>DU_MODPARAM_R.FD_NHINIT</xmlId>
73 </parameter>
74 </member>
75 <member>
76 <parameter>
77 <xmlId>DU_MODPARAM_R.FD_RADM_INI</xmlId>
78 </parameter>
79 </member>
80 <member>
81 <parameter>
82 <xmlId>DU_MODPARAM_R.FD_RADP_INI</xmlId>
83 </parameter>
84 </member>
85 </parameterGroup>
86
87 <!-- to be corrected -->
88 <parameterGroup>
89 <name>grain parameters</name>
90 <description>Parameters controling grain properties</description>
91 <member>
92 <parameter>
93 <xmlId>DU_MODPARAM_R.FD_CD</xmlId>
94 </parameter>
95 </member>
96 <member>
97 <parameter>
98 <xmlId>DU_MODPARAM_R.FD_RV</xmlId>
99 </parameter>
100 </member>
101 <member>
102 <parameter>
103 <xmlId>DU_MODPARAM_R.FD_LOSNAME</xmlId>
104 </parameter>
105 </member>
106 </parameterGroup>
107
108 <parameterGroup>
109 <name>algorithm parameters</name>
110 <description>Parameters related to algorithms</description>
111 <member>
112 <parameter>
113 <xmlId>DU_MODPARAM_R.FD_ITFER</xmlId>
114 </parameter>
115 </member>
116 <member>
117 <parameter>
118 <xmlId>DU_MODPARAM_R.FD_JFGKH2</xmlId>
119 </parameter>
120 </member>
121 </parameterGroup>
122
123
124 <!--
125 RepresentationObjectTypes are :
126 GAS -> has for properties: density, temperature, pressure, ionization degree, molecular fraction, heating rate, cooling rate, ...
127 H -> has for property: density, column density
128 H2 -> has for property: density, excitation temperature, column density
129 level 1 -> has for property density
130 level 2 -> has for property density
131 level 3
132 ... (about 300 levels depends on experiment)
133 C+ -> has for property: density, column density
134 level 1
135 level 2
136 ... (Maximum 5 levels - depends on experiment)
137 C -> has for properties: density, column density
138 CO -> has for properties: density, column density
139 ... (between 100 and 400 species - depends on experiment/project)
140 GRAINS
141 Size 1 -> has for properties: charge, temperature
142 Size 2
143 Size 3
144 ... (about 12 sizes - depends on experiment/project)
145 -->
146
147
148 <!-- RepresentationObject GAS -->
149
150 <!-- Should be done automatically
151 The list can be done scanning the VO-Table produced by the code
152 Should search in the list for DU_ABUNDANCES.FD_AB_XXXXX
153 where XXXXX is the name of chemical species.
154 -->
155
156 <representation>
157 <identity>
158 <xmlId>R_GAS</xmlId>
159 </identity>
160 <name>gas</name>
161 <description>TODO</description>
162 <child>
163 <name>H</name>
164 <object>
165 <xmlId>R_H</xmlId>
166 </object>
167 <!-- description ????? -->
168 <!-- label ???? -->
169 </child>
170 <child>
171 <name>H2</name>
172 <object>
173 <xmlId>R_H2</xmlId>
174 </object>
175 </child>
176 <child>
177 <name>C+</name>
178 <object>
179 <xmlId>R_Cp</xmlId>
180 </object>
181 </child>
182 <type>simple mesh cell</type>
183 <label>ISM</label>
184 </representation>
185
186 <representation>
187 <identity>
188 <xmlId>R_H</xmlId>
189 </identity>
190 <name>H</name>
191 <type>simple mesh cell</type>
192 </representation>
193
194 <representation>
195 <identity>
196 <xmlId>R_H2</xmlId>
197 </identity>
198 <name>H2</name>
199 <child>
200 <name>H2 Level 1</name>
201 <object>
202 <xmlId>R_H2_Level_1</xmlId>
203 </object>
204 </child>
205 <child>
206 <name>H2 Level 2</name>
207 <object>
208 <xmlId>R_H2_Level_2</xmlId>
209 </object>
210 </child>
211 <type>simple mesh cell</type>
212 </representation>
213
214 <!--
215 Should be done automatically
216 All species do not have levels in an experiment
217 All species do not have the same number of levels
218 Species with levels in an experiment can be found in the VO-Table
219 They have a Table: ID="DU_LEVELPROP_XXX" nrows="VALUE"
220 with: XXX: name of the specy
221 value: number of levels for this specy
222
223 NOTE: The notation "Level 1", "Level 2", "Level 3" means nothing for a user and is
224 dangerous because level YY could be different from an experiment to another.
225 One should find a way to create the name automatically. The informations are in the VO-Table also.
226 But that could be better to do a correspondance table once and for all next to the Database.
227 One should have a look to the Line DataModel too. Maybe we can do something similar
228 -->
229
230 <representation>
231 <identity>
232 <xmlId>R_H2_Level_1</xmlId>
233 </identity>
234 <name>H2 Level 1</name>
235 <type>simple mesh cell</type>
236 </representation>
237
238 <representation>
239 <identity>
240 <xmlId>R_H2_Level_2</xmlId>
241 </identity>
242 <name>H2 Level 2</name>
243 <type>simple mesh cell</type>
244 </representation>
245
246 <representation>
247 <identity>
248 <xmlId>R_Cp</xmlId>
249 </identity>
250 <name>C+</name>
251 <type>simple mesh cell</type>
252 </representation>
253
254
255 <!-- RepresentationObject GRAINS -->
256 <representation>
257 <identity>
258 <xmlId>R_GRAIN</xmlId>
259 </identity>
260 <name>grains</name>
261 <child>
262 <name>Size 1</name>
263 <object>
264 <xmlId>R_GR_1</xmlId>
265 </object>
266 </child>
267 <child>
268 <name>Size 2</name>
269 <object>
270 <xmlId>R_GR_2</xmlId>
271 </object>
272 </child>
273 <child>
274 <name>Size 3</name>
275 <object>
276 <xmlId>R_GR_3</xmlId>
277 </object>
278 </child>
279 <!-- Should be done automatically
280 The number of sizes is provided in the VO-Table in several ways
281 Way 1 - Correspond to nrows in ID="DU_GAUSSPT" nrows="12"
282 Maybe not a good way since this may disappear in the future versions of the code.
283 Lets do it this way for the moment.
284 -->
285 <type>simple mesh cell</type>
286 </representation>
287
288 <representation>
289 <identity>
290 <xmlId>R_GR_1</xmlId>
291 </identity>
292 <name>grains size 1 ...</name>
293 <type>simple mesh cell</type>
294 </representation>
295
296 <representation>
297 <identity>
298 <xmlId>R_GR_2</xmlId>
299 </identity>
300 <name>grains size 2 ...</name>
301 <type>simple mesh cell</type>
302 </representation>
303
304 <representation>
305 <identity>
306 <xmlId>R_GR_3</xmlId>
307 </identity>
308 <name>grains size 3 ...</name>
309 <type>simple mesh cell</type>
310 </representation>
311
312
313 <!-- Template: -->
314 <!-- <name></name> -->
315 <!-- <description></description> -->
316 <!-- In VOTable: ID="" -->
317
318 <!-- In VOTable ID="DU_MODPARAM_R.FD_NHINIT" -->
319 <parameter>
320 <identity>
321 <xmlId>DU_MODPARAM_R.FD_NHINIT</xmlId>
322 </identity>
323 <name>Initial proton density</name>
324 <datatype>float</datatype>
325 <cardinality>1</cardinality>
326 <description></description>
327 </parameter>
328
329 <!--In VOTable: ID="DU_MODPARAM_R.FD_RADM_INI" -->
330 <parameter>
331 <identity>
332 <xmlId>DU_MODPARAM_R.FD_RADM_INI</xmlId>
333 </identity>
334 <name>Initial ISRF scaling factor (observer side)</name>
335 <datatype>float</datatype>
336 <cardinality>1</cardinality>
337 <description>Scaling factor to Draine radiation field</description>
338 </parameter>
339
340 <!--In VOTable: ID="DU_MODPARAM_R.FD_RADP_INI" -->
341 <parameter>
342 <identity>
343 <xmlId>DU_MODPARAM_R.FD_RADP_INI</xmlId>
344 </identity>
345 <name>Initial ISRF scaling factor (backside)</name>
346 <datatype>float</datatype>
347 <cardinality>1</cardinality>
348 <description>Scaling factor to Draine radiation field</description>
349 </parameter>
350
351 <!-- In VOTable ID="DU_MODPARAM_R.FD_CD" -->
352 <parameter>
353 <identity>
354 <xmlId>DU_MODPARAM_R.FD_CD</xmlId>
355 </identity>
356 <name>N(H)/E(B-V)</name>
357 <datatype>float</datatype>
358 <cardinality>1</cardinality>
359 <description>Ratio of proton column density on reddening</description>
360 </parameter>
361
362 <!-- In VOTable ID="DU_MODPARAM_R.FD_RV" -->
363 <parameter>
364 <identity>
365 <xmlId>DU_MODPARAM_R.FD_RV</xmlId>
366 </identity>
367 <name>RV</name>
368 <datatype>float</datatype>
369 <cardinality>1</cardinality>
370 <description>Rv = Av / E(B-V), Total to selective extinction ratio</description>
371 </parameter>
372
373 <!--In VOTable: ID="DU_MODPARAM_S.FD_LOSNAME" -->
374 <parameter>
375 <identity>
376 <xmlId>DU_MODPARAM_R.FD_LOSNAME</xmlId>
377 </identity>
378 <name>Line of sight</name>
379 <datatype>float</datatype>
380 <cardinality>1</cardinality>
381 <description>Line of sight dust extinction curve</description>
382 </parameter>
383
384 <!--In VOTable: ID="DU_MODPARAM_I.FD_ITFER" -->
385 <parameter>
386 <identity>
387 <xmlId>DU_MODPARAM_R.FD_ITFER</xmlId>
388 </identity>
389 <name>itrfer</name>
390 <datatype>float</datatype>
391 <cardinality>1</cardinality>
392 <description>UV radiative transfer method</description>
393 </parameter>
394
395 <!--In VOTable: ID="DU_MODPARAM_I.FD_JFGKH2" -->
396 <parameter>
397 <identity>
398 <xmlId>DU_MODPARAM_R.FD_JFGKH2</xmlId>
399 </identity>
400 <name>jfgkh2</name>
401 <datatype>float</datatype>
402 <cardinality>1</cardinality>
403 <description>H2 rotationnal level below wich exact UV radiative transfer is performed</description>
404 </parameter>
405
406 <!-- generated content : end -->
407
408
409
410
411
412 <physicalProcess>
413 <name>radiative transfer</name>
414 <description>should be read from a vocabulary file</description>
415 <physicslabel>radiative transfer ?</physicslabel>
416 </physicalProcess>
417
418 </s:aSimulator>

msdemlei@ari.uni-heidelberg.de
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