Context Navigation

cc-pcvtz.kv@ 482400e

Visit:

Action_Thermostats Add_AtomRandomPerturbation Add_RotateAroundBondAction Add_SelectAtomByNameAction Adding_Graph_to_ChangeBondActions Adding_MD_integration_tests Adding_StructOpt_integration_tests Automaking_mpqc_open AutomationFragmentation_failures Candidate_v1.6.0 Candidate_v1.6.1 ChangeBugEmailaddress ChangingTestPorts ChemicalSpaceEvaluator Combining_Subpackages Debian_Package_split Debian_package_split_molecuildergui_only Disabling_MemDebug Docu_Python_wait EmpiricalPotential_contain_HomologyGraph_documentation Enable_parallel_make_install Enhance_userguide Enhanced_StructuralOptimization Enhanced_StructuralOptimization_continued Example_ManyWaysToTranslateAtom Exclude_Hydrogens_annealWithBondGraph FitPartialCharges_GlobalError Fix_ChronosMutex Fix_StatusMsg Fix_StepWorldTime_single_argument Fix_Verbose_Codepatterns ForceAnnealing_goodresults ForceAnnealing_oldresults ForceAnnealing_tocheck ForceAnnealing_with_BondGraph ForceAnnealing_with_BondGraph_continued ForceAnnealing_with_BondGraph_continued_betteresults ForceAnnealing_with_BondGraph_contraction-expansion GeometryObjects Gui_displays_atomic_force_velocity IndependentFragmentGrids_IntegrationTest JobMarket_RobustOnKillsSegFaults JobMarket_StableWorkerPool JobMarket_unresolvable_hostname_fix ODR_violation_mpqc_open PartialCharges_OrthogonalSummation PythonUI_with_named_parameters QtGui_reactivate_TimeChanged_changes Recreated_GuiChecks RotateToPrincipalAxisSystem_UndoRedo StoppableMakroAction Subpackage_levmar Subpackage_vmg ThirdParty_MPQC_rebuilt_buildsystem TremoloParser_IncreasedPrecision TremoloParser_MultipleTimesteps Ubuntu_1604_changes stable

Last change on this file since 482400e was 860145, checked in by Frederik Heber <heber@…>, 8 years ago
Merge commit '0b990dfaa8c6007a996d030163a25f7f5fc8a7e7' as 'ThirdParty/mpqc_open'
Property mode set to `100644`
File size: 37.6 KB

Line
1	%BASIS "cc-pCVTZ" CARTESIAN
2	basis:(
3	%Elements References
4	%-------- ----------
5	% H : T.H. Dunning, Jr. J. Chem. Phys. 90, 1007 (1989).
6	% He : D.E. Woon and T.H. Dunning, Jr. J. Chem. Phys. 100, 2975 (1994).
7	%Li - Ne: T.H. Dunning, Jr. J. Chem. Phys. 90, 1007 (1989).
8	%Na - Mg: D.E. Woon and T.H. Dunning, Jr. (to be published)
9	%Al - Ar: D.E. Woon and T.H. Dunning, Jr. J. Chem. Phys. 98, 1358 (1993).
10	%Ca : J. Koput and K.A. Peterson, J. Phys. Chem. A, 106, 9595 (2002).
11	%Elements References
12	%-------- ----------
13	%Li - Ne: T.H. Dunning, Jr. J. Chem. Phys. 90, 1007 (1989) and D. E. Woon and
14	% T.H. Dunning, Jr. J. Chem. Phys. 103, 4572 (1995).
15	%Al - Ar: K.A. Peterson and T.H. Dunning, Jr. J. Chem. Phys. 117, 10548 (2002)
16	%Ca : K.A. Peterson (to be published)
17	%
18	%
19	% BASIS SET: (11s,5p,2d,1f) -> [4s,3p,2d,1f]
20	% AUGMENTING FUNCTIONS: Tight (s,p,d)
21	lithium: "cc-pCVTZ": [
22	(type: [am = s am = s]
23	{exp coef:0 coef:1} = {
24	5988.0000000 0.13300000000E-03 -0.21000000000E-04
25	898.90000000 0.10250000000E-02 -0.16100000000E-03
26	205.90000000 0.52720000000E-02 -0.82000000000E-03
27	59.240000000 0.20929000000E-01 -0.33260000000E-02
28	19.870000000 0.66340000000E-01 -0.10519000000E-01
29	7.4060000000 0.16577500000 -0.28097000000E-01
30	2.9300000000 0.31503800000 -0.55936000000E-01
31	1.1890000000 0.39352300000 -0.99237000000E-01
32	0.47980000000 0.19087000000 -0.11218900000
33	})
34	(type: [am = s]
35	{exp coef:0} = {
36	0.75090000000E-01 1.0000000000
37	})
38	(type: [am = s]
39	{exp coef:0} = {
40	0.28320000000E-01 1.0000000000
41	})
42	(type: [am = s]
43	{exp coef:0} = {
44	1.9740000000 1.0000000000
45	})
46	(type: [am = s]
47	{exp coef:0} = {
48	0.68300000000 1.0000000000
49	})
50	(type: [am = p]
51	{exp coef:0} = {
52	3.2660000000 0.86300000000E-02
53	0.65110000000 0.47538000000E-01
54	0.16960000000 0.20977200000
55	})
56	(type: [am = p]
57	{exp coef:0} = {
58	0.55780000000E-01 1.0000000000
59	})
60	(type: [am = p]
61	{exp coef:0} = {
62	0.20500000000E-01 1.0000000000
63	})
64	(type: [am = p]
65	{exp coef:0} = {
66	7.3200000000 1.0000000000
67	})
68	(type: [am = p]
69	{exp coef:0} = {
70	1.8750000000 1.0000000000
71	})
72	(type: [(am = d puream = 1)]
73	{exp coef:0} = {
74	0.18740000000 1.0000000000
75	})
76	(type: [(am = d puream = 1)]
77	{exp coef:0} = {
78	0.80100000000E-01 1.0000000000
79	})
80	(type: [(am = d puream = 1)]
81	{exp coef:0} = {
82	4.9120000000 1.0000000000
83	})
84	(type: [(am = f puream = 1)]
85	{exp coef:0} = {
86	0.18290000000 1.0000000000
87	})
88	]
89	%
90	% BASIS SET: (10s,5p,2d,1f) -> [4s,3p,2d,1f]
91	% AUGMENTING FUNCTIONS: Tight (s,p,d)
92	boron: "cc-pCVTZ": [
93	(type: [am = s am = s]
94	{exp coef:0 coef:1} = {
95	5473.0000000 0.55500000000E-03 -0.11200000000E-03
96	820.90000000 0.42910000000E-02 -0.86800000000E-03
97	186.80000000 0.21949000000E-01 -0.44840000000E-02
98	52.830000000 0.84441000000E-01 -0.17683000000E-01
99	17.080000000 0.23855700000 -0.53639000000E-01
100	5.9990000000 0.43507200000 -0.11900500000
101	2.2080000000 0.34195500000 -0.16582400000
102	0.24150000000 -0.95450000000E-02 0.59598100000
103	})
104	(type: [am = s]
105	{exp coef:0} = {
106	0.58790000000 1.0000000000
107	})
108	(type: [am = s]
109	{exp coef:0} = {
110	0.86100000000E-01 1.0000000000
111	})
112	(type: [am = s]
113	{exp coef:0} = {
114	2.9400000000 1.0000000000
115	})
116	(type: [am = s]
117	{exp coef:0} = {
118	8.3110000000 1.0000000000
119	})
120	(type: [am = p]
121	{exp coef:0} = {
122	12.050000000 0.13118000000E-01
123	2.6130000000 0.79896000000E-01
124	0.74750000000 0.27727500000
125	})
126	(type: [am = p]
127	{exp coef:0} = {
128	0.23850000000 1.0000000000
129	})
130	(type: [am = p]
131	{exp coef:0} = {
132	0.76980000000E-01 1.0000000000
133	})
134	(type: [am = p]
135	{exp coef:0} = {
136	6.0160000000 1.0000000000
137	})
138	(type: [am = p]
139	{exp coef:0} = {
140	22.891000000 1.0000000000
141	})
142	(type: [(am = d puream = 1)]
143	{exp coef:0} = {
144	0.66100000000 1.0000000000
145	})
146	(type: [(am = d puream = 1)]
147	{exp coef:0} = {
148	0.19900000000 1.0000000000
149	})
150	(type: [(am = d puream = 1)]
151	{exp coef:0} = {
152	13.015000000 1.0000000000
153	})
154	(type: [(am = f puream = 1)]
155	{exp coef:0} = {
156	0.49000000000 1.0000000000
157	})
158	]
159	%
160	% BASIS SET: (10s,5p,2d,1f) -> [4s,3p,2d,1f]
161	% AUGMENTING FUNCTIONS: Tight (s,p,d)
162	carbon: "cc-pCVTZ": [
163	(type: [am = s am = s]
164	{exp coef:0 coef:1} = {
165	8236.0000000 0.53100000000E-03 -0.11300000000E-03
166	1235.0000000 0.41080000000E-02 -0.87800000000E-03
167	280.80000000 0.21087000000E-01 -0.45400000000E-02
168	79.270000000 0.81853000000E-01 -0.18133000000E-01
169	25.590000000 0.23481700000 -0.55760000000E-01
170	8.9970000000 0.43440100000 -0.12689500000
171	3.3190000000 0.34612900000 -0.17035200000
172	0.36430000000 -0.89830000000E-02 0.59868400000
173	})
174	(type: [am = s]
175	{exp coef:0} = {
176	0.90590000000 1.0000000000
177	})
178	(type: [am = s]
179	{exp coef:0} = {
180	0.12850000000 1.0000000000
181	})
182	(type: [am = s]
183	{exp coef:0} = {
184	4.2920000000 1.0000000000
185	})
186	(type: [am = s]
187	{exp coef:0} = {
188	11.876000000 1.0000000000
189	})
190	(type: [am = p]
191	{exp coef:0} = {
192	18.710000000 0.14031000000E-01
193	4.1330000000 0.86866000000E-01
194	1.2000000000 0.29021600000
195	})
196	(type: [am = p]
197	{exp coef:0} = {
198	0.38270000000 1.0000000000
199	})
200	(type: [am = p]
201	{exp coef:0} = {
202	0.12090000000 1.0000000000
203	})
204	(type: [am = p]
205	{exp coef:0} = {
206	8.7780000000 1.0000000000
207	})
208	(type: [am = p]
209	{exp coef:0} = {
210	33.190000000 1.0000000000
211	})
212	(type: [(am = d puream = 1)]
213	{exp coef:0} = {
214	1.0970000000 1.0000000000
215	})
216	(type: [(am = d puream = 1)]
217	{exp coef:0} = {
218	0.31800000000 1.0000000000
219	})
220	(type: [(am = d puream = 1)]
221	{exp coef:0} = {
222	14.839000000 1.0000000000
223	})
224	(type: [(am = f puream = 1)]
225	{exp coef:0} = {
226	0.76100000000 1.0000000000
227	})
228	]
229	%
230	% BASIS SET: (10s,5p,2d,1f) -> [4s,3p,2d,1f]
231	% AUGMENTING FUNCTIONS: Tight (s,p,d)
232	nitrogen: "cc-pCVTZ": [
233	(type: [am = s am = s]
234	{exp coef:0 coef:1} = {
235	11420.000000 0.52300000000E-03 -0.11500000000E-03
236	1712.0000000 0.40450000000E-02 -0.89500000000E-03
237	389.30000000 0.20775000000E-01 -0.46240000000E-02
238	110.00000000 0.80727000000E-01 -0.18528000000E-01
239	35.570000000 0.23307400000 -0.57339000000E-01
240	12.540000000 0.43350100000 -0.13207600000
241	4.6440000000 0.34747200000 -0.17251000000
242	0.51180000000 -0.85080000000E-02 0.59994400000
243	})
244	(type: [am = s]
245	{exp coef:0} = {
246	1.2930000000 1.0000000000
247	})
248	(type: [am = s]
249	{exp coef:0} = {
250	0.17870000000 1.0000000000
251	})
252	(type: [am = s]
253	{exp coef:0} = {
254	5.9520000000 1.0000000000
255	})
256	(type: [am = s]
257	{exp coef:0} = {
258	16.201000000 1.0000000000
259	})
260	(type: [am = p]
261	{exp coef:0} = {
262	26.630000000 0.14670000000E-01
263	5.9480000000 0.91764000000E-01
264	1.7420000000 0.29868300000
265	})
266	(type: [am = p]
267	{exp coef:0} = {
268	0.55500000000 1.0000000000
269	})
270	(type: [am = p]
271	{exp coef:0} = {
272	0.17250000000 1.0000000000
273	})
274	(type: [am = p]
275	{exp coef:0} = {
276	11.871000000 1.0000000000
277	})
278	(type: [am = p]
279	{exp coef:0} = {
280	44.849000000 1.0000000000
281	})
282	(type: [(am = d puream = 1)]
283	{exp coef:0} = {
284	1.6540000000 1.0000000000
285	})
286	(type: [(am = d puream = 1)]
287	{exp coef:0} = {
288	0.46900000000 1.0000000000
289	})
290	(type: [(am = d puream = 1)]
291	{exp coef:0} = {
292	14.200000000 1.0000000000
293	})
294	(type: [(am = f puream = 1)]
295	{exp coef:0} = {
296	1.0930000000 1.0000000000
297	})
298	]
299	%
300	% BASIS SET: (10s,5p,2d,1f) -> [4s,3p,2d,1f]
301	% AUGMENTING FUNCTIONS: Tight (s,p,d)
302	oxygen: "cc-pCVTZ": [
303	(type: [am = s am = s]
304	{exp coef:0 coef:1} = {
305	15330.000000 0.50800000000E-03 -0.11500000000E-03
306	2299.0000000 0.39290000000E-02 -0.89500000000E-03
307	522.40000000 0.20243000000E-01 -0.46360000000E-02
308	147.30000000 0.79181000000E-01 -0.18724000000E-01
309	47.550000000 0.23068700000 -0.58463000000E-01
310	16.760000000 0.43311800000 -0.13646300000
311	6.2070000000 0.35026000000 -0.17574000000
312	0.68820000000 -0.81540000000E-02 0.60341800000
313	})
314	(type: [am = s]
315	{exp coef:0} = {
316	1.7520000000 1.0000000000
317	})
318	(type: [am = s]
319	{exp coef:0} = {
320	0.23840000000 1.0000000000
321	})
322	(type: [am = s]
323	{exp coef:0} = {
324	7.8450000000 1.0000000000
325	})
326	(type: [am = s]
327	{exp coef:0} = {
328	21.032000000 1.0000000000
329	})
330	(type: [am = p]
331	{exp coef:0} = {
332	34.460000000 0.15928000000E-01
333	7.7490000000 0.99740000000E-01
334	2.2800000000 0.31049200000
335	})
336	(type: [am = p]
337	{exp coef:0} = {
338	0.71560000000 1.0000000000
339	})
340	(type: [am = p]
341	{exp coef:0} = {
342	0.21400000000 1.0000000000
343	})
344	(type: [am = p]
345	{exp coef:0} = {
346	15.159000000 1.0000000000
347	})
348	(type: [am = p]
349	{exp coef:0} = {
350	57.437000000 1.0000000000
351	})
352	(type: [(am = d puream = 1)]
353	{exp coef:0} = {
354	2.3140000000 1.0000000000
355	})
356	(type: [(am = d puream = 1)]
357	{exp coef:0} = {
358	0.64500000000 1.0000000000
359	})
360	(type: [(am = d puream = 1)]
361	{exp coef:0} = {
362	15.858000000 1.0000000000
363	})
364	(type: [(am = f puream = 1)]
365	{exp coef:0} = {
366	1.4280000000 1.0000000000
367	})
368	]
369	%
370	% BASIS SET: (10s,5p,2d,1f) -> [4s,3p,2d,1f]
371	% AUGMENTING FUNCTIONS: Tight (s,p,d)
372	fluorine: "cc-pCVTZ": [
373	(type: [am = s am = s]
374	{exp coef:0 coef:1} = {
375	19500.000000 0.50700000000E-03 -0.11700000000E-03
376	2923.0000000 0.39230000000E-02 -0.91200000000E-03
377	664.50000000 0.20200000000E-01 -0.47170000000E-02
378	187.50000000 0.79010000000E-01 -0.19086000000E-01
379	60.620000000 0.23043900000 -0.59655000000E-01
380	21.420000000 0.43287200000 -0.14001000000
381	7.9500000000 0.34996400000 -0.17678200000
382	0.88150000000 -0.78920000000E-02 0.60504300000
383	})
384	(type: [am = s]
385	{exp coef:0} = {
386	2.2570000000 1.0000000000
387	})
388	(type: [am = s]
389	{exp coef:0} = {
390	0.30410000000 1.0000000000
391	})
392	(type: [am = s]
393	{exp coef:0} = {
394	9.8120000000 1.0000000000
395	})
396	(type: [am = s]
397	{exp coef:0} = {
398	25.943000000 1.0000000000
399	})
400	(type: [am = p]
401	{exp coef:0} = {
402	43.880000000 0.16665000000E-01
403	9.9260000000 0.10447200000
404	2.9300000000 0.31726000000
405	})
406	(type: [am = p]
407	{exp coef:0} = {
408	0.91320000000 1.0000000000
409	})
410	(type: [am = p]
411	{exp coef:0} = {
412	0.26720000000 1.0000000000
413	})
414	(type: [am = p]
415	{exp coef:0} = {
416	18.756000000 1.0000000000
417	})
418	(type: [am = p]
419	{exp coef:0} = {
420	71.348000000 1.0000000000
421	})
422	(type: [(am = d puream = 1)]
423	{exp coef:0} = {
424	3.1070000000 1.0000000000
425	})
426	(type: [(am = d puream = 1)]
427	{exp coef:0} = {
428	0.85500000000 1.0000000000
429	})
430	(type: [(am = d puream = 1)]
431	{exp coef:0} = {
432	19.108000000 1.0000000000
433	})
434	(type: [(am = f puream = 1)]
435	{exp coef:0} = {
436	1.9170000000 1.0000000000
437	})
438	]
439	%
440	% BASIS SET: (10s,5p,2d,1f) -> [4s,3p,2d,1f]
441	% AUGMENTING FUNCTIONS: Tight (s,p,d)
442	neon: "cc-pCVTZ": [
443	(type: [am = s am = s]
444	{exp coef:0 coef:1} = {
445	24350.000000 0.50200000000E-03 -0.11800000000E-03
446	3650.0000000 0.38810000000E-02 -0.91500000000E-03
447	829.60000000 0.19997000000E-01 -0.47370000000E-02
448	234.00000000 0.78418000000E-01 -0.19233000000E-01
449	75.610000000 0.22967600000 -0.60369000000E-01
450	26.730000000 0.43272200000 -0.14250800000
451	9.9270000000 0.35064200000 -0.17771000000
452	1.1020000000 -0.76450000000E-02 0.60583600000
453	})
454	(type: [am = s]
455	{exp coef:0} = {
456	2.8360000000 1.0000000000
457	})
458	(type: [am = s]
459	{exp coef:0} = {
460	0.37820000000 1.0000000000
461	})
462	(type: [am = s]
463	{exp coef:0} = {
464	12.083000000 1.0000000000
465	})
466	(type: [am = s]
467	{exp coef:0} = {
468	31.947000000 1.0000000000
469	})
470	(type: [am = p]
471	{exp coef:0} = {
472	54.700000000 0.17151000000E-01
473	12.430000000 0.10765600000
474	3.6790000000 0.32168100000
475	})
476	(type: [am = p]
477	{exp coef:0} = {
478	1.1430000000 1.0000000000
479	})
480	(type: [am = p]
481	{exp coef:0} = {
482	0.33000000000 1.0000000000
483	})
484	(type: [am = p]
485	{exp coef:0} = {
486	22.827000000 1.0000000000
487	})
488	(type: [am = p]
489	{exp coef:0} = {
490	87.017000000 1.0000000000
491	})
492	(type: [(am = d puream = 1)]
493	{exp coef:0} = {
494	4.0140000000 1.0000000000
495	})
496	(type: [(am = d puream = 1)]
497	{exp coef:0} = {
498	1.0960000000 1.0000000000
499	})
500	(type: [(am = d puream = 1)]
501	{exp coef:0} = {
502	23.168000000 1.0000000000
503	})
504	(type: [(am = f puream = 1)]
505	{exp coef:0} = {
506	2.5440000000 1.0000000000
507	})
508	]
509	%
510	% BASIS SET: (16s,10p,2d,1f) -> [5s,4p,2d,1f]
511	% AUGMENTING FUNCTIONS: Tight (s,p,d,f)
512	sodium: "cc-pCVTZ": [
513	(type: [am = s am = s am = s]
514	{exp coef:0 coef:1 coef:2} = {
515	423000.00000 0.18061800000E-04 -0.44065300000E-05 0.66301900000E-06
516	63340.000000 0.14043000000E-03 -0.34344300000E-04 0.51576900000E-05
517	14410.000000 0.73843800000E-03 -0.18011400000E-03 0.27125000000E-04
518	4077.0000000 0.31118200000E-02 -0.76390000000E-03 0.11463500000E-03
519	1328.0000000 0.11208100000E-01 -0.27524800000E-02 0.41511800000E-03
520	478.60000000 0.35282800000E-01 -0.88601600000E-02 0.13297800000E-02
521	186.20000000 0.95989700000E-01 -0.24793900000E-01 0.37559500000E-02
522	76.920000000 0.21373500000 -0.60599500000E-01 0.91402500000E-02
523	33.320000000 0.34868800000 -0.11644600000 0.17985900000E-01
524	15.000000000 0.32456600000 -0.16243700000 0.25147700000E-01
525	6.8690000000 0.11263300000 -0.43889100000E-01 0.76352200000E-02
526	2.6830000000 0.70679700000E-02 0.33791700000 -0.61458900000E-01
527	1.1090000000 0.59801000000E-03 0.56134700000 -0.11572100000
528	0.60150000000E-01 -0.53087000000E-05 0.40675400000E-02 0.62640600000
529	})
530	(type: [am = s]
531	{exp coef:0} = {
532	0.45400000000 1.0000000000
533	})
534	(type: [am = s]
535	{exp coef:0} = {
536	0.23820000000E-01 1.0000000000
537	})
538	(type: [am = s]
539	{exp coef:0} = {
540	4.1890000000 1.0000000000
541	})
542	(type: [am = s]
543	{exp coef:0} = {
544	0.62600000000 1.0000000000
545	})
546	(type: [am = p am = p]
547	{exp coef:0 coef:1} = {
548	243.30000000 0.22439200000E-02 -0.22240100000E-03
549	57.390000000 0.17399700000E-01 -0.17427700000E-02
550	18.100000000 0.77412500000E-01 -0.77545600000E-02
551	6.5750000000 0.21910200000 -0.22518700000E-01
552	2.5210000000 0.37852200000 -0.38433000000E-01
553	0.96070000000 0.39490200000 -0.45017700000E-01
554	0.35120000000 0.16042400000 -0.19213200000E-01
555	0.98270000000E-01 0.23331100000E-02 0.18269700000
556	})
557	(type: [am = p]
558	{exp coef:0} = {
559	0.37340000000E-01 1.0000000000
560	})
561	(type: [am = p]
562	{exp coef:0} = {
563	0.15000000000E-01 1.0000000000
564	})
565	(type: [am = p]
566	{exp coef:0} = {
567	1.5690000000 1.0000000000
568	})
569	(type: [am = p]
570	{exp coef:0} = {
571	0.51200000000 1.0000000000
572	})
573	(type: [(am = d puream = 1)]
574	{exp coef:0} = {
575	0.13670000000 1.0000000000
576	})
577	(type: [(am = d puream = 1)]
578	{exp coef:0} = {
579	0.63600000000E-01 1.0000000000
580	})
581	(type: [(am = d puream = 1)]
582	{exp coef:0} = {
583	5.4040000000 1.0000000000
584	})
585	(type: [(am = d puream = 1)]
586	{exp coef:0} = {
587	1.5300000000 1.0000000000
588	})
589	(type: [(am = f puream = 1)]
590	{exp coef:0} = {
591	0.13970000000 1.0000000000
592	})
593	(type: [(am = f puream = 1)]
594	{exp coef:0} = {
595	3.4650000000 1.0000000000
596	})
597	]
598	%
599	% BASIS SET: (15s,10p,2d,1f) -> [5s,4p,2d,1f]
600	% AUGMENTING FUNCTIONS: Tight (s,p,d,f)
601	magnesium: "cc-pCVTZ": [
602	(type: [am = s am = s am = s]
603	{exp coef:0 coef:1 coef:2} = {
604	164900.00000 0.72992900000E-04 -0.18424800000E-04 0.35517600000E-05
605	24710.000000 0.56665200000E-03 -0.14350000000E-03 0.27642000000E-04
606	5628.0000000 0.29626900000E-02 -0.74871000000E-03 0.14440400000E-03
607	1596.0000000 0.12296200000E-01 -0.31440700000E-02 0.60574400000E-03
608	521.00000000 0.42732400000E-01 -0.11048100000E-01 0.21352700000E-02
609	188.00000000 0.12301300000 -0.33605800000E-01 0.64993400000E-02
610	73.010000000 0.27483200000 -0.82594600000E-01 0.16144600000E-01
611	29.900000000 0.40181800000 -0.15931400000 0.31576600000E-01
612	12.540000000 0.26469700000 -0.15288800000 0.31637400000E-01
613	4.3060000000 0.33261200000E-01 0.19084900000 -0.43914000000E-01
614	1.8260000000 -0.44133500000E-02 0.57996400000 -0.15109300000
615	0.74170000000 0.20602400000E-02 0.37202900000 -0.21766800000
616	0.76120000000E-01 0.70819500000E-03 -0.11934400000E-01 0.54724500000
617	})
618	(type: [am = s]
619	{exp coef:0} = {
620	0.14570000000 1.0000000000
621	})
622	(type: [am = s]
623	{exp coef:0} = {
624	0.33100000000E-01 1.0000000000
625	})
626	(type: [am = s]
627	{exp coef:0} = {
628	17.516000000 1.0000000000
629	})
630	(type: [am = s]
631	{exp coef:0} = {
632	3.8700000000 1.0000000000
633	})
634	(type: [am = p am = p]
635	{exp coef:0 coef:1} = {
636	316.90000000 0.20753200000E-02 -0.32972700000E-03
637	74.860000000 0.16286900000E-01 -0.25875400000E-02
638	23.720000000 0.73869700000E-01 -0.11912000000E-01
639	8.6690000000 0.21429700000 -0.35022700000E-01
640	3.3630000000 0.38215400000 -0.63996800000E-01
641	1.3100000000 0.39817800000 -0.70443600000E-01
642	0.49110000000 0.15287800000 -0.37583600000E-01
643	0.23640000000 -0.43754000000E-02 0.17704300000
644	})
645	(type: [am = p]
646	{exp coef:0} = {
647	0.87330000000E-01 1.0000000000
648	})
649	(type: [am = p]
650	{exp coef:0} = {
651	0.32370000000E-01 1.0000000000
652	})
653	(type: [am = p]
654	{exp coef:0} = {
655	20.297000000 1.0000000000
656	})
657	(type: [am = p]
658	{exp coef:0} = {
659	5.1050000000 1.0000000000
660	})
661	(type: [(am = d puream = 1)]
662	{exp coef:0} = {
663	0.12600000000 1.0000000000
664	})
665	(type: [(am = d puream = 1)]
666	{exp coef:0} = {
667	0.29400000000 1.0000000000
668	})
669	(type: [(am = d puream = 1)]
670	{exp coef:0} = {
671	7.0290000000 1.0000000000
672	})
673	(type: [(am = d puream = 1)]
674	{exp coef:0} = {
675	2.1210000000 1.0000000000
676	})
677	(type: [(am = f puream = 1)]
678	{exp coef:0} = {
679	0.25200000000 1.0000000000
680	})
681	(type: [(am = f puream = 1)]
682	{exp coef:0} = {
683	4.5300000000 1.0000000000
684	})
685	]
686	%
687	% BASIS SET: (15s,9p,2d,1f) -> [5s,4p,2d,1f]
688	% AUGMENTING FUNCTIONS: Tight (2s,2p,2d,1f)
689	aluminum: "cc-pCVTZ": [
690	(type: [am = s am = s am = s]
691	{exp coef:0 coef:1 coef:2} = {
692	205500.00000 0.67883600000E-04 -0.17637700000E-04 0.40731500000E-05
693	30780.000000 0.52714900000E-03 -0.13719500000E-03 0.31656600000E-04
694	7006.0000000 0.27620300000E-02 -0.71891000000E-03 0.16611600000E-03
695	1985.0000000 0.11472800000E-01 -0.30114600000E-02 0.69499200000E-03
696	649.10000000 0.39818800000E-01 -0.10601400000E-01 0.24551100000E-02
697	235.00000000 0.11504000000 -0.32134500000E-01 0.74459800000E-02
698	91.620000000 0.26088700000 -0.80315600000E-01 0.18825300000E-01
699	37.670000000 0.39638600000 -0.15679400000 0.37277200000E-01
700	15.910000000 0.28459700000 -0.16837600000 0.41949600000E-01
701	5.8500000000 0.44458300000E-01 0.12687900000 -0.35437500000E-01
702	2.5420000000 -0.48983800000E-02 0.56149400000 -0.17513200000
703	1.0570000000 0.26125300000E-02 0.43661300000 -0.27620300000
704	0.14550000000 0.72206800000E-03 -0.11456300000E-01 0.65280900000
705	})
706	(type: [am = s]
707	{exp coef:0} = {
708	0.29310000000 1.0000000000
709	})
710	(type: [am = s]
711	{exp coef:0} = {
712	0.56500000000E-01 1.0000000000
713	})
714	(type: [am = s]
715	{exp coef:0} = {
716	7.4880000000 1.0000000000
717	})
718	(type: [am = s]
719	{exp coef:0} = {
720	1.2720000000 1.0000000000
721	})
722	(type: [am = p am = p]
723	{exp coef:0 coef:1} = {
724	444.40000000 0.16278600000E-02 -0.28634100000E-03
725	105.10000000 0.13068700000E-01 -0.24230800000E-02
726	33.470000000 0.61234100000E-01 -0.10865800000E-01
727	12.330000000 0.18787000000 -0.36430700000E-01
728	4.8690000000 0.36045200000 -0.64107400000E-01
729	1.9610000000 0.40845400000 -0.97223900000E-01
730	0.18880000000 0.97651400000E-02 0.50344800000
731	})
732	(type: [am = p]
733	{exp coef:0} = {
734	0.78340000000 1.0000000000
735	})
736	(type: [am = p]
737	{exp coef:0} = {
738	0.55570000000E-01 1.0000000000
739	})
740	(type: [am = p]
741	{exp coef:0} = {
742	2.2020000000 1.0000000000
743	})
744	(type: [am = p]
745	{exp coef:0} = {
746	5.5480000000 1.0000000000
747	})
748	(type: [(am = d puream = 1)]
749	{exp coef:0} = {
750	0.10900000000 1.0000000000
751	})
752	(type: [(am = d puream = 1)]
753	{exp coef:0} = {
754	0.33300000000 1.0000000000
755	})
756	(type: [(am = d puream = 1)]
757	{exp coef:0} = {
758	2.6340000000 1.0000000000
759	})
760	(type: [(am = d puream = 1)]
761	{exp coef:0} = {
762	8.6460000000 1.0000000000
763	})
764	(type: [(am = f puream = 1)]
765	{exp coef:0} = {
766	0.24400000000 1.0000000000
767	})
768	(type: [(am = f puream = 1)]
769	{exp coef:0} = {
770	5.6860000000 1.0000000000
771	})
772	]
773	%
774	% BASIS SET: (15s,9p,2d,1f) -> [5s,4p,2d,1f]
775	% AUGMENTING FUNCTIONS: Tight (2s,2p,2d,1f)
776	silicon: "cc-pCVTZ": [
777	(type: [am = s am = s am = s]
778	{exp coef:0 coef:1 coef:2} = {
779	254900.00000 0.62510100000E-04 -0.16637000000E-04 0.42625700000E-05
780	38190.000000 0.48555300000E-03 -0.12931000000E-03 0.33106200000E-04
781	8690.0000000 0.25451600000E-02 -0.67882800000E-03 0.17401500000E-03
782	2462.0000000 0.10586600000E-01 -0.28411700000E-02 0.72757400000E-03
783	804.80000000 0.36878700000E-01 -0.10055100000E-01 0.25833300000E-02
784	291.30000000 0.10747900000 -0.30577400000E-01 0.78635400000E-02
785	113.60000000 0.24793600000 -0.77725600000E-01 0.20215500000E-01
786	46.750000000 0.39092700000 -0.15423600000 0.40732000000E-01
787	19.820000000 0.30202600000 -0.18036800000 0.49935800000E-01
788	7.7080000000 0.55923600000E-01 0.79821800000E-01 -0.24939600000E-01
789	3.3400000000 -0.40240600000E-02 0.54744100000 -0.19035000000
790	1.4020000000 0.25803000000E-02 0.48011900000 -0.31835000000
791	0.20700000000 0.60793000000E-03 -0.10699600000E-01 0.68118000000
792	})
793	(type: [am = s]
794	{exp coef:0} = {
795	0.43870000000 1.0000000000
796	})
797	(type: [am = s]
798	{exp coef:0} = {
799	0.79440000000E-01 1.0000000000
800	})
801	(type: [am = s]
802	{exp coef:0} = {
803	9.1640000000 1.0000000000
804	})
805	(type: [am = s]
806	{exp coef:0} = {
807	1.6210000000 1.0000000000
808	})
809	(type: [am = p am = p]
810	{exp coef:0 coef:1} = {
811	481.50000000 0.19204500000E-02 -0.40522000000E-03
812	113.90000000 0.15355200000E-01 -0.33589600000E-02
813	36.230000000 0.71399100000E-01 -0.15286000000E-01
814	13.340000000 0.21305200000 -0.48921800000E-01
815	5.2520000000 0.39035400000 -0.85500800000E-01
816	2.1200000000 0.39372100000 -0.11213700000
817	0.25280000000 0.39563000000E-02 0.55191900000
818	})
819	(type: [am = p]
820	{exp coef:0} = {
821	0.85610000000 1.0000000000
822	})
823	(type: [am = p]
824	{exp coef:0} = {
825	0.78890000000E-01 1.0000000000
826	})
827	(type: [am = p]
828	{exp coef:0} = {
829	6.4580000000 1.0000000000
830	})
831	(type: [am = p]
832	{exp coef:0} = {
833	2.5170000000 1.0000000000
834	})
835	(type: [(am = d puream = 1)]
836	{exp coef:0} = {
837	0.15900000000 1.0000000000
838	})
839	(type: [(am = d puream = 1)]
840	{exp coef:0} = {
841	0.48100000000 1.0000000000
842	})
843	(type: [(am = d puream = 1)]
844	{exp coef:0} = {
845	10.671000000 1.0000000000
846	})
847	(type: [(am = d puream = 1)]
848	{exp coef:0} = {
849	3.3080000000 1.0000000000
850	})
851	(type: [(am = f puream = 1)]
852	{exp coef:0} = {
853	0.33600000000 1.0000000000
854	})
855	(type: [(am = f puream = 1)]
856	{exp coef:0} = {
857	7.0010000000 1.0000000000
858	})
859	]
860	%
861	% BASIS SET: (15s,9p,2d,1f) -> [5s,4p,2d,1f]
862	% AUGMENTING FUNCTIONS: Tight (2s,2p,2d,1f)
863	phosphorus: "cc-pCVTZ": [
864	(type: [am = s am = s am = s]
865	{exp coef:0 coef:1 coef:2} = {
866	312400.00000 0.57696000000E-04 -0.15670900000E-04 0.43063100000E-05
867	46800.000000 0.44829600000E-03 -0.12172400000E-03 0.33419400000E-04
868	10650.000000 0.23493900000E-02 -0.63967200000E-03 0.17588500000E-03
869	3018.0000000 0.97826500000E-02 -0.26742600000E-02 0.73434000000E-03
870	986.80000000 0.34146700000E-01 -0.94983100000E-02 0.26177500000E-02
871	357.40000000 0.10020400000 -0.28934900000E-01 0.79785200000E-02
872	139.60000000 0.23437200000 -0.74512100000E-01 0.20794000000E-01
873	57.630000000 0.38243400000 -0.14993800000 0.42444600000E-01
874	24.600000000 0.31808800000 -0.18946700000 0.56343600000E-01
875	10.120000000 0.70778800000E-01 0.36327000000E-01 -0.12735800000E-01
876	4.2830000000 -0.18179900000E-02 0.52881600000 -0.19649500000
877	1.8050000000 0.21618000000E-02 0.51911500000 -0.35355500000
878	0.27820000000 0.43229700000E-03 -0.92569500000E-02 0.70091200000
879	})
880	(type: [am = s]
881	{exp coef:0} = {
882	0.61580000000 1.0000000000
883	})
884	(type: [am = s]
885	{exp coef:0} = {
886	0.10550000000 1.0000000000
887	})
888	(type: [am = s]
889	{exp coef:0} = {
890	10.978000000 1.0000000000
891	})
892	(type: [am = s]
893	{exp coef:0} = {
894	2.0060000000 1.0000000000
895	})
896	(type: [am = p am = p]
897	{exp coef:0 coef:1} = {
898	504.90000000 0.23372800000E-02 -0.55523600000E-03
899	119.40000000 0.18541000000E-01 -0.44591300000E-02
900	37.960000000 0.84969300000E-01 -0.20635000000E-01
901	13.950000000 0.24461500000 -0.61769400000E-01
902	5.4570000000 0.42276600000 -0.10892400000
903	2.1770000000 0.36843900000 -0.10559900000
904	0.28770000000 -0.37900500000E-02 0.57698100000
905	})
906	(type: [am = p]
907	{exp coef:0} = {
908	0.80100000000 1.0000000000
909	})
910	(type: [am = p]
911	{exp coef:0} = {
912	0.97140000000E-01 1.0000000000
913	})
914	(type: [am = p]
915	{exp coef:0} = {
916	7.0840000000 1.0000000000
917	})
918	(type: [am = p]
919	{exp coef:0} = {
920	2.7010000000 1.0000000000
921	})
922	(type: [(am = d puream = 1)]
923	{exp coef:0} = {
924	0.21600000000 1.0000000000
925	})
926	(type: [(am = d puream = 1)]
927	{exp coef:0} = {
928	0.65200000000 1.0000000000
929	})
930	(type: [(am = d puream = 1)]
931	{exp coef:0} = {
932	12.891000000 1.0000000000
933	})
934	(type: [(am = d puream = 1)]
935	{exp coef:0} = {
936	4.0560000000 1.0000000000
937	})
938	(type: [(am = f puream = 1)]
939	{exp coef:0} = {
940	0.45200000000 1.0000000000
941	})
942	(type: [(am = f puream = 1)]
943	{exp coef:0} = {
944	8.4620000000 1.0000000000
945	})
946	]
947	%
948	% BASIS SET: (15s,9p,2d,1f) -> [5s,4p,2d,1f]
949	% AUGMENTING FUNCTIONS: Tight (2s,2p,2d,1f)
950	sulfur: "cc-pCVTZ": [
951	(type: [am = s am = s am = s]
952	{exp coef:0 coef:1 coef:2} = {
953	374100.00000 0.54214000000E-04 -0.14983700000E-04 0.43506600000E-05
954	56050.000000 0.42085500000E-03 -0.11619800000E-03 0.33714000000E-04
955	12760.000000 0.22069800000E-02 -0.61158300000E-03 0.17767400000E-03
956	3615.0000000 0.91925800000E-02 -0.25537000000E-02 0.74111600000E-03
957	1183.0000000 0.32112300000E-01 -0.90870800000E-02 0.26459100000E-02
958	428.80000000 0.94668300000E-01 -0.27704500000E-01 0.80748700000E-02
959	167.80000000 0.22363000000 -0.72002000000E-01 0.21227600000E-01
960	69.470000000 0.37439300000 -0.14643900000 0.43832300000E-01
961	29.840000000 0.32910800000 -0.19515000000 0.61271600000E-01
962	12.720000000 0.84703800000E-01 0.81919300000E-02 -0.36151000000E-02
963	5.2440000000 0.44085100000E-03 0.51660100000 -0.20451000000
964	2.2190000000 0.16482700000E-02 0.54217800000 -0.38187100000
965	0.34900000000 0.30130600000E-03 -0.91807200000E-02 0.71414700000
966	})
967	(type: [am = s]
968	{exp coef:0} = {
969	0.77670000000 1.0000000000
970	})
971	(type: [am = s]
972	{exp coef:0} = {
973	0.13220000000 1.0000000000
974	})
975	(type: [am = s]
976	{exp coef:0} = {
977	12.928000000 1.0000000000
978	})
979	(type: [am = s]
980	{exp coef:0} = {
981	2.4130000000 1.0000000000
982	})
983	(type: [am = p am = p]
984	{exp coef:0 coef:1} = {
985	574.40000000 0.24226400000E-02 -0.62010200000E-03
986	135.80000000 0.19279600000E-01 -0.49388200000E-02
987	43.190000000 0.88540100000E-01 -0.23264700000E-01
988	15.870000000 0.25465400000 -0.68519500000E-01
989	6.2080000000 0.43398400000 -0.12389600000
990	2.4830000000 0.35495300000 -0.96949900000E-01
991	0.32290000000 -0.50297700000E-02 0.56939400000
992	})
993	(type: [am = p]
994	{exp coef:0} = {
995	0.86880000000 1.0000000000
996	})
997	(type: [am = p]
998	{exp coef:0} = {
999	0.10980000000 1.0000000000
1000	})
1001	(type: [am = p]
1002	{exp coef:0} = {
1003	8.1140000000 1.0000000000
1004	})
1005	(type: [am = p]
1006	{exp coef:0} = {
1007	3.1060000000 1.0000000000
1008	})
1009	(type: [(am = d puream = 1)]
1010	{exp coef:0} = {
1011	0.26900000000 1.0000000000
1012	})
1013	(type: [(am = d puream = 1)]
1014	{exp coef:0} = {
1015	0.81900000000 1.0000000000
1016	})
1017	(type: [(am = d puream = 1)]
1018	{exp coef:0} = {
1019	15.254000000 1.0000000000
1020	})
1021	(type: [(am = d puream = 1)]
1022	{exp coef:0} = {
1023	4.8450000000 1.0000000000
1024	})
1025	(type: [(am = f puream = 1)]
1026	{exp coef:0} = {
1027	0.55700000000 1.0000000000
1028	})
1029	(type: [(am = f puream = 1)]
1030	{exp coef:0} = {
1031	10.052000000 1.0000000000
1032	})
1033	]
1034	%
1035	% BASIS SET: (15s,9p,2d,1f) -> [5s,4p,2d,1f]
1036	% AUGMENTING FUNCTIONS: Tight (s,p,d,f)
1037	chlorine: "cc-pCVTZ": [
1038	(type: [am = s am = s am = s]
1039	{exp coef:0 coef:1 coef:2} = {
1040	456100.00000 0.49297000000E-04 -0.13830400000E-04 0.41854600000E-05
1041	68330.000000 0.38302900000E-03 -0.10727900000E-03 0.32439500000E-04
1042	15550.000000 0.20085400000E-02 -0.56508300000E-03 0.17110500000E-03
1043	4405.0000000 0.83855800000E-02 -0.23613500000E-02 0.71417600000E-03
1044	1439.0000000 0.29470300000E-01 -0.84588600000E-02 0.25670500000E-02
1045	520.40000000 0.87832500000E-01 -0.25963800000E-01 0.78855200000E-02
1046	203.10000000 0.21147300000 -0.68636200000E-01 0.21086700000E-01
1047	83.960000000 0.36536400000 -0.14187400000 0.44226400000E-01
1048	36.200000000 0.34088400000 -0.19931900000 0.65167000000E-01
1049	15.830000000 0.10213300000 -0.19566200000E-01 0.60301200000E-02
1050	6.3340000000 0.31167500000E-02 0.49974100000 -0.20649500000
1051	2.6940000000 0.10575100000E-02 0.56373600000 -0.40587100000
1052	0.43130000000 0.15613600000E-03 -0.83509100000E-02 0.72566100000
1053	})
1054	(type: [am = s]
1055	{exp coef:0} = {
1056	0.97680000000 1.0000000000
1057	})
1058	(type: [am = s]
1059	{exp coef:0} = {
1060	0.16250000000 1.0000000000
1061	})
1062	(type: [am = s]
1063	{exp coef:0} = {
1064	15.064000000 1.0000000000
1065	})
1066	(type: [am = s]
1067	{exp coef:0} = {
1068	2.8740000000 1.0000000000
1069	})
1070	(type: [am = p am = p]
1071	{exp coef:0 coef:1} = {
1072	663.30000000 0.24044800000E-02 -0.65214500000E-03
1073	156.80000000 0.19214800000E-01 -0.51944500000E-02
1074	49.980000000 0.88509700000E-01 -0.24693800000E-01
1075	18.420000000 0.25602000000 -0.72816700000E-01
1076	7.2400000000 0.43692700000 -0.13403000000
1077	2.9220000000 0.35033400000 -0.94774200000E-01
1078	0.38180000000 -0.45842300000E-02 0.56466700000
1079	})
1080	(type: [am = p]
1081	{exp coef:0} = {
1082	1.0220000000 1.0000000000
1083	})
1084	(type: [am = p]
1085	{exp coef:0} = {
1086	0.13010000000 1.0000000000
1087	})
1088	(type: [am = p]
1089	{exp coef:0} = {
1090	9.4800000000 1.0000000000
1091	})
1092	(type: [am = p]
1093	{exp coef:0} = {
1094	3.6680000000 1.0000000000
1095	})
1096	(type: [(am = d puream = 1)]
1097	{exp coef:0} = {
1098	1.0460000000 1.0000000000
1099	})
1100	(type: [(am = d puream = 1)]
1101	{exp coef:0} = {
1102	0.34400000000 1.0000000000
1103	})
1104	(type: [(am = d puream = 1)]
1105	{exp coef:0} = {
1106	17.957000000 1.0000000000
1107	})
1108	(type: [(am = d puream = 1)]
1109	{exp coef:0} = {
1110	5.7600000000 1.0000000000
1111	})
1112	(type: [(am = f puream = 1)]
1113	{exp coef:0} = {
1114	0.70600000000 1.0000000000
1115	})
1116	(type: [(am = f puream = 1)]
1117	{exp coef:0} = {
1118	11.779000000 1.0000000000
1119	})
1120	]
1121	%
1122	% BASIS SET: (15s,9p,2d,1f) -> [5s,4p,2d,1f]
1123	% AUGMENTING FUNCTIONS: Tight (2s,2p,2d,1f)
1124	argon: "cc-pCVTZ": [
1125	(type: [am = s am = s am = s]
1126	{exp coef:0 coef:1 coef:2} = {
1127	545000.00000 0.45582800000E-04 -0.12955100000E-04 0.40499000000E-05
1128	81640.000000 0.35410800000E-03 -0.10042800000E-03 0.31369100000E-04
1129	18580.000000 0.18579700000E-02 -0.52958300000E-03 0.16564600000E-03
1130	5261.0000000 0.77685100000E-02 -0.22139600000E-02 0.69166200000E-03
1131	1717.0000000 0.27423200000E-01 -0.79684500000E-02 0.24979000000E-02
1132	619.90000000 0.82383600000E-01 -0.24580300000E-01 0.77107400000E-02
1133	241.60000000 0.20123000000 -0.65779800000E-01 0.20871400000E-01
1134	99.790000000 0.35678100000 -0.13794200000 0.44396500000E-01
1135	43.150000000 0.34956300000 -0.20163000000 0.68022400000E-01
1136	19.140000000 0.11826600000 -0.41283400000E-01 0.14135000000E-01
1137	7.4880000000 0.56019000000E-02 0.48468000000 -0.20748900000
1138	3.2050000000 0.48347300000E-03 0.57922400000 -0.42504500000
1139	0.52040000000 0.29202500000E-04 -0.72755300000E-02 0.73362700000
1140	})
1141	(type: [am = s]
1142	{exp coef:0} = {
1143	1.1960000000 1.0000000000
1144	})
1145	(type: [am = s]
1146	{exp coef:0} = {
1147	0.19540000000 1.0000000000
1148	})
1149	(type: [am = s]
1150	{exp coef:0} = {
1151	17.362000000 1.0000000000
1152	})
1153	(type: [am = s]
1154	{exp coef:0} = {
1155	3.3780000000 1.0000000000
1156	})
1157	(type: [am = p am = p]
1158	{exp coef:0 coef:1} = {
1159	761.80000000 0.23697600000E-02 -0.66721100000E-03
1160	180.20000000 0.19019900000E-01 -0.53271700000E-02
1161	57.500000000 0.88080700000E-01 -0.25549400000E-01
1162	21.240000000 0.25637700000 -0.75719700000E-01
1163	8.3880000000 0.43871100000 -0.14113300000
1164	3.4160000000 0.34756900000 -0.93276800000E-01
1165	0.45230000000 -0.52388200000E-02 0.56245000000
1166	})
1167	(type: [am = p]
1168	{exp coef:0} = {
1169	1.2060000000 1.0000000000
1170	})
1171	(type: [am = p]
1172	{exp coef:0} = {
1173	0.15450000000 1.0000000000
1174	})
1175	(type: [am = p]
1176	{exp coef:0} = {
1177	11.019000000 1.0000000000
1178	})
1179	(type: [am = p]
1180	{exp coef:0} = {
1181	4.3070000000 1.0000000000
1182	})
1183	(type: [(am = d puream = 1)]
1184	{exp coef:0} = {
1185	0.41000000000 1.0000000000
1186	})
1187	(type: [(am = d puream = 1)]
1188	{exp coef:0} = {
1189	1.2540000000 1.0000000000
1190	})
1191	(type: [(am = d puream = 1)]
1192	{exp coef:0} = {
1193	20.706000000 1.0000000000
1194	})
1195	(type: [(am = d puream = 1)]
1196	{exp coef:0} = {
1197	6.6810000000 1.0000000000
1198	})
1199	(type: [(am = f puream = 1)]
1200	{exp coef:0} = {
1201	0.89000000000 1.0000000000
1202	})
1203	(type: [(am = f puream = 1)]
1204	{exp coef:0} = {
1205	13.674000000 1.0000000000
1206	})
1207	]
1208	)

Note: See TracBrowser for help on using the repository browser.

Download in other formats:

Original Format