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source: source/entities.js @ 268:b2ed9015dfb7

Last change on this file since 268:b2ed9015dfb7 was 268:b2ed9015dfb7, checked in by Evgeny Stambulchik <Evgeny.Stambulchik@…>, 13 years ago
Added mass density (per species and total). Version 0.9.3.
File size: 13.0 KB

Line
1	var plasma_entities = new Array(
2	{
3	id : "plasma_frequency",
4	name : "Plasma frequency",
5	dimension : "frequency",
6	nspecies : 1,
7	section : "waves",
8	formula : "%s1.getPlasmaFrequency()",
9	wikiLink : "Plasma_frequency"
10	},
11	{
12	id : "gyrofrequency",
13	name : "Gyrofrequency",
14	dimension : "frequency",
15	nspecies : 1,
16	section : "fundamental",
17	formula : "%s1.getGyroFrequency(this.plasma.B)",
18	wikiLink : "Gyrofrequency"
19	},
20
21	{
22	id : "wigner_seitz_radius",
23	name : "Typical inter-particle distance",
24	dimension : "length",
25	nspecies : 1,
26	section : "fundamental",
27	formula : "%s1.getTypicalDistance()",
28	wikiLink : "Wigner-Seitz_radius"
29	},
30	{
31	id : "debye_length",
32	name : "Debye length",
33	dimension : "length",
34	nspecies : 1,
35	section : "fundamental",
36	formula : "%s1.getDebyeLength()",
37	wikiLink : "Debye_length"
38	},
39	{
40	id : "full_debye_length",
41	name : "Full Debye length",
42	dimension : "length",
43	nspecies : 1,
44	section : "fundamental",
45	formula : "this.plasma.getFullDebyeLength(%s1)",
46	wikiLink : "Debye_length"
47	},
48	{
49	id : "gyroradius",
50	name : "Gyroradius",
51	dimension : "length",
52	nspecies : 1,
53	section : "fundamental",
54	formula : "%s1.getGyroRadius(this.plasma.B)",
55	wikiLink : "Gyroradius"
56	},
57	{
58	id : "distance_of_minimal_approach",
59	name : "Distance of minimal approach",
60	dimension : "length",
61	nspecies : 1,
62	section : "fundamental",
63	formula : "%s1.getMinApproachDistance()"
64	},
65	{
66	id : "inertial_length",
67	name : "Inertial length",
68	dimension : "length",
69	nspecies : 1,
70	section : "waves",
71	formula : "%s1.getInertialLength()",
72	wikiLink : "Inertial_length"
73	},
74	{
75	id : "de_broglie_wavelength",
76	name : "De Broglie wavelength",
77	dimension : "length",
78	nspecies : 1,
79	section : "fundamental",
80	formula : "%s1.getDeBroglieLength()",
81	wikiLink : "DeBroglie_wavelength"
82	},
83
84	{
85	id : "thermal_velocity",
86	name : "Thermal velocity",
87	dimension : "velocity",
88	nspecies : 1,
89	section : "fundamental",
90	formula : "%s1.getThermalVelocity()",
91	wikiLink : "Thermal_velocity"
92	},
93	{
94	id : "alfven_velocity",
95	name : "Alfven velocity",
96	dimension : "velocity",
97	nspecies : 0,
98	section : "waves",
99	formula : "this.plasma.getAlfvenVelocity(this.plasma.B)",
100	wikiLink : "Alfven_velocity"
101	},
102
103	{
104	id : "coupling_parameter",
105	name : "Coupling parameter",
106	dimension : "none",
107	nspecies : 1,
108	section : "fundamental",
109	formula : "%s1.getCoupling()"
110	},
111	{
112	id : "typical_debye_screening",
113	name : "Typical Debye screening",
114	dimension : "none",
115	nspecies : 1,
116	section : "spectroscopy",
117	formula : "var r = %s1.getTypicalDistance()/%s1.getDebyeLength(); \
118	(1 + r)*Math.exp(-r)"
119	},
120
121	{
122	id : "transition_energy",
123	name : "Transition energy",
124	dimension : "energy",
125	nspecies : 0,
126	section : "spectroscopy",
127	formula : "this.plasma.getTransitionEnergy()"
128	},
129	{
130	id : "natural_linewidth",
131	name : "Natural linewidth",
132	dimension : "energy",
133	nspecies : 0,
134	section : "spectroscopy",
135	formula : "this.plasma.getNaturalWidth()"
136	},
137	{
138	id : "Fine_structure",
139	name : "Fine structure",
140	dimension : "energy",
141	nspecies : 0,
142	section : "spectroscopy",
143	formula : "this.plasma.getFineStructure()",
144	wikiLink : "Fine_structure"
145	},
146	{
147	id : "doppler_fwhm",
148	name : "Doppler FWHM",
149	dimension : "energy",
150	nspecies : 0,
151	section : "spectroscopy",
152	formula : "2*this.plasma.getDopplerHwhm()",
153	wikiLink : "Doppler_broadening"
154	},
155	{
156	id : "zeeman_splitting",
157	name : "Zeeman splitting",
158	dimension : "energy",
159	nspecies : 0,
160	section : "spectroscopy",
161	formula : "2*this.plasma.getZeemanSplitting()"
162	},
163	{
164	id : "total_stark_fwhm",
165	name : "Total Stark FWHM",
166	dimension : "energy",
167	nspecies : 0,
168	section : "spectroscopy",
169	formula : "2*this.plasma.getStarkHwhm()"
170	},
171	{
172	id : "stark_fwhm",
173	name : "Stark FWHM",
174	dimension : "energy",
175	nspecies : 1,
176	prepos : "due to",
177	section : "spectroscopy",
178	formula : "2this.plasma.getQsHwhm(%s1)this.plasma.getStarkQuasistaticity(%s1)"
179	},
180
181	{
182	id : "qs_stark_fwhm",
183	name : "QS Stark FWHM",
184	dimension : "energy",
185	nspecies : 1,
186	prepos : "due to",
187	section : "spectroscopy",
188	formula : "2*this.plasma.getQsHwhm(%s1)"
189	},
190
191	{
192	id : "dynamic_stark_range",
193	name : "Dynamic Stark range",
194	dimension : "energy",
195	nspecies : 1,
196	section : "spectroscopy",
197	formula : "this.plasma.getMicrofieldFrequency(%s1)"
198	},
199
200	{
201	id : "minimal_energy_distance",
202	name : "Minimal energy distance",
203	dimension : "energy",
204	nspecies : 0,
205	section : "spectroscopy",
206	formula : "this.plasma.getMinEnergyDistance()"
207	},
208	{
209	id : "plasmon_energy",
210	name : "Plasmon energy",
211	dimension : "energy",
212	nspecies : 0,
213	section : "spectroscopy",
214	formula : "this.plasma.e.getPlasmaFrequency()",
215	wikiLink : "Plasmon"
216	},
217	{
218	id : "fermi_energy",
219	name : "Fermi energy",
220	dimension : "energy",
221	nspecies : 0,
222	section : "fundamental",
223	formula : "this.plasma.getFermiEnergy()",
224	wikiLink : "Fermi_energy"
225	},
226	{
227	id : "chemical_potential",
228	name : "Chemical potential",
229	dimension : "energy",
230	nspecies : 1,
231	section : "fundamental",
232	formula : "%s1.getChemicalPotential()",
233	wikiLink : "Chemical_potential"
234	},
235
236	{
237	id : "mass_density",
238	name : "Mass density",
239	dimension : "mass_density",
240	nspecies : 1,
241	section : "fundamental",
242	formula : "%s1.getMassDensity()",
243	wikiLink : "Density"
244	},
245	{
246	id : "mass_density",
247	name : "Total mass density",
248	dimension : "mass_density",
249	nspecies : 0,
250	section : "fundamental",
251	formula : "this.plasma.getMassDensity()",
252	wikiLink : "Density"
253	},
254
255	{
256	id : "beta",
257	name : "Beta",
258	dimension : "none",
259	nspecies : 0,
260	section : "fundamental",
261	formula : "this.plasma.getBeta()",
262	wikiLink : "Beta_(plasma_physics)"
263	},
264
265	{
266	id : "stark_quasistaticity",
267	name : "Stark quasistaticity",
268	dimension : "none",
269	nspecies : 1,
270	section : "spectroscopy",
271	formula : "this.plasma.getStarkQuasistaticity(%s1)"
272	},
273	{
274	id : "static_to_dynamic_stark_ratio",
275	name : "Static/dynamic Stark ratio",
276	dimension : "none",
277	nspecies : 1,
278	section : "spectroscopy",
279	formula : "this.plasma.getStarkRatio(%s1)"
280	},
281
282	{
283	id : "transition_wavelength",
284	name : "Transition wavelength",
285	dimension : "length",
286	nspecies : 0,
287	section : "spectroscopy",
288	formula : "pf.base.Bohr.c/this.plasma.getTransitionEnergy()(2Math.PI)"
289	},
290
291	{
292	id : "transition_frequency",
293	name : "Transition frequency",
294	dimension : "frequency",
295	nspecies : 0,
296	section : "spectroscopy",
297	formula : "this.plasma.getTransitionEnergy()/(2*Math.PI)"
298	},
299
300	{
301	id : "holtsmark_field",
302	name : "Holtsmark field",
303	dimension : "efield",
304	nspecies : 1,
305	section : "spectroscopy",
306	formula : "%s1.getHoltsmarkField()"
307	},
308
309	{
310	id : "microfield_frequency",
311	name : "Microfield frequency",
312	dimension : "frequency",
313	nspecies : 1,
314	section : "spectroscopy",
315	formula : "this.plasma.getMicrofieldFrequency(%s1)"
316	},
317
318	{
319	id : "cyclotron_losses",
320	name : "Cyclotron losses",
321	dimension : "power_density",
322	nspecies : 1,
323	section : "radiation",
324	formula : "%s1.getCyclotronLosses(this.plasma.B)",
325	wikiLink : "Cyclotron_radiation"
326	},
327
328	{
329	id : "free-free_losses",
330	name : "Free-free losses",
331	dimension : "power_density",
332	nspecies : 0,
333	section : "radiation",
334	formula : "this.plasma.getBremsstrahlungLosses()",
335	wikiLink : "Bremsstrahlung"
336	},
337
338	{
339	id : "dree-free_spectral_density",
340	name : "Free-free spectral density",
341	dimension : "spectral_power_density",
342	nspecies : 0,
343	section : "radiation",
344	formula : "this.plasma.getBremsstrahlungSpectralDensity()",
345	wikiLink : "Bremsstrahlung"
346	},
347
348	{
349	id : "free-bound_losses",
350	name : "Free-bound losses",
351	dimension : "power_density",
352	nspecies : 0,
353	section : "radiation",
354	formula : "this.plasma.getFreeBoundLosses()"
355	},
356
357	{
358	id : "free-bound_spectral_density",
359	name : "Free-bound spectral density",
360	dimension : "spectral_power_density",
361	nspecies : 0,
362	section : "radiation",
363	formula : "this.plasma.getFreeBoundSpectralDensity()"
364	},
365
366	{
367	id : "bound-bound_losses",
368	name : "Bound-bound losses",
369	dimension : "power_density",
370	nspecies : 0,
371	section : "radiation",
372	formula : "this.plasma.getBoundBoundLosses()"
373	},
374
375	{
376	id : "ideal_gas_pressure",
377	name : "Ideal gas pressure",
378	dimension : "pressure",
379	nspecies : 1,
380	section : "fundamental",
381	formula : "%s1.getPressure()",
382	wikiLink : "Ideal_gas"
383	},
384
385	{
386	id : "total_pressure",
387	name : "Total pressure",
388	dimension : "pressure",
389	nspecies : 0,
390	section : "fundamental",
391	formula : "this.plasma.getPressure()"
392	},
393
394	{
395	id : "magnetic_field_pressure",
396	name : "Magnetic field pressure",
397	dimension : "pressure",
398	nspecies : 0,
399	section : "fundamental",
400	formula : "this.plasma.getMagneticFieldPressure()",
401	wikiLink : "Magnetic_pressure"
402	},
403
404	{
405	id : "coulomb_logarithm",
406	name : "Coulomb logarithm",
407	dimension : "none",
408	nspecies : 2,
409	section : "collisions",
410	formula : "this.plasma.getCoulombLog(%s1, %s2)",
411	wikiLink : "Coulomb_collision"
412	},
413
414	{
415	id : "relaxation_rate",
416	name : "Relaxation rate",
417	dimension : "frequency",
418	nspecies : 2,
419	section : "collisions",
420	formula : "this.plasma.getRelaxationRate(%s1, %s2)"
421	},
422
423	{
424	id : "thomson_cross-section",
425	name : "Thomson cross-section",
426	dimension : "area",
427	nspecies : 1,
428	section : "collisions",
429	formula : "%s1.getThomsonXsTotal()",
430	wikiLink : "Thomson_cross_section"
431	},
432
433	{
434	id : "classical_ionization_field",
435	name : "Classical ionization field",
436	dimension : "efield",
437	nspecies : 0,
438	section : "spectroscopy",
439	formula : "this.plasma.getClassicalIonizationField()"
440	},
441	{
442	id : "inglis_teller_field",
443	name : "Inglis-Teller field",
444	dimension : "efield",
445	nspecies : 0,
446	section : "spectroscopy",
447	formula : "this.plasma.getInglisTellerField()",
448	wikiLink : "Inglis-Teller_equation"
449	},
450	{
451	id : "dreicer_field",
452	name : "Dreicer field",
453	dimension : "efield",
454	nspecies : 0,
455	section : "collisions",
456	formula : "this.plasma.getDreicerField()"
457	}
458	);

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