2011A&A...527A..34M

Query : 2011A&A...527A..34M

2011A&A...527A..34M - Astronomy and Astrophysics, volume 527A, 34-34 (2011/3-1)

Dust properties along anomalous extinction sightlines. II. Studying extinction curves with dust models.

MAZZEI P. and BARBARO G.

Abstract (from CDS):

Studies of the dust extinction in the Galaxy have found that the large majority of sight lines analyzed obey a simple relation depending on one parameter, the total-to-selective extinction coefficient, R_V. Different values of R_V are able to match the whole extinction curve in different environments, thus characterize normal extinction curves. However anomalous curves i.e, curves which deviate strongly from this simple behavior have been observed in the Galaxy as well as external galaxies. More than sixty curves with large ultraviolet deviations from their best-fit one-parameter curve are analyzed. The extinction curves are fitted with dust models to shed light on the properties of the grains along selected lines of sight, the processes affecting them, and their relations with the environmental characteristics. The extinction curve models are developed using the latest prescriptions for grain-size distributions capable of describing one-parameter curves for R_V values from 3.1 to 5.5. These models, extended here down to R_V=2.0, allow us to compare the resulting properties of our deviating curves with those of normal curves in a self-consistent framework, and thus to recover the relative trends overcoming the modeling uncertainties. In addition to 20 anomalous curves extracted from the same sample for study in a previous paper and revised here to account for the latest updates, these curves represent the largest, homogeneous sample of anomalous curves studied so far with dust models. Our results show that the ultraviolet deviations are driven by a larger amount of small grains than predicted for lines of sight where extinction depends on only one parameter. Moreover, the dust-to-gas ratios of anomalous curves are lower than the same values for no deviating lines of sight. Both shocks and grain-grain collisions should destroy dust grains, hence reduce the amount of the dust trapped in the grains, modify the size distribution of the dust, and increase the small-to-large grain size ratio. Therefore, the extinction properties derived should correspond to sight lines where shocks and high velocity flows perturb the physical state of the interstellar medium and leave their signature on the dust properties.

Abstract Copyright: ∼

Journal keyword(s): dust, extinction - ISM: clouds - open clusters and associations: general - galaxies: ISM

CDS comments: Paragraph 5.2 189.876+0.156 is a misprint for [KCW94] 189.876+0.516

Simbad objects: 86

Full paper

View the references in ADS

Number of rows : 86

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2024	#notes
1	BD+62 2353	*	00 02 22.7084701776	+62 54 03.184785864	9.54	10.07	9.9			B1II	19	0
2	BD+59 2829	Be*	00 06 48.3057007056	+60 36 00.848235564	9.59	10.14	9.9			B0	33	0
3	V* AO Cas	SB*	00 17 43.0633133256	+51 25 59.116450728	5.04	6.01	6.14			O9.2II+O8V((f))	328	0
4	HD 2619	*	00 30 28.3298416296	+65 16 19.764470208	8.44	8.78	8.33			B	44	0
5	BD+63 89	Em*	00 45 12.8497989864	+64 23 30.734039400	9.69	10.054	9.502	9.26		B1Ib	28	0
6	NAME SMC	G	00 52 38.0	-72 48 01		2.79	2.2			~	11146	1
7	BD+57 252	*	01 19 34.1802997848	+58 15 22.131283644	9.2	9.77	9.51			B1IV	44	0
8	BD+59 273	*	01 33 28.2064065384	+60 37 48.159623640	8.74	9.22	9.03			B5	33	0
9	BD+58 310	*	01 50 30.3494679936	+59 14 49.691187960	9.89	10.29	10.17			B1V	16	0
10	BD+62 338	**	02 02 11.4419501544	+62 50 31.070953284	8.76		9.47	9.32		B3.0III	31	0
11	HD 12323	SB*	02 02 30.1268458032	+55 37 26.372271540	7.95	8.87	8.92			ON9.2V	184	0
12	HD 14357	bC*	02 21 10.4369424696	+56 51 56.340040320	8.31	8.83	8.4988	8.21	8.0630	B2.0I	76	0
13	NGC 884	OpC	02 22 20.2	+57 08 56						~	486	0
14	BD+56 586	bC*	02 22 36.2966755968	+57 04 54.393974868	9.60	10.19	9.9630			B1V	43	0
15	HD 14707	V*	02 24 28.0909087728	+58 18 02.554764696	10.02	10.46	9.94			B0.5IIIv	31	0
16	HD 14734	*	02 24 39.2412084912	+57 12 59.586327972		9.63	9.53			B0.5V	12	0
17	NAME Magellanic Clouds	GrG	03 00	-71.0						~	7064	0
18	HD 21455	Be*	03 29 26.2864669176	+46 56 16.318187592		6.305	6.217	7.27		B7Vne	109	0
19	NAME Per Arm	PoG	03 30	+45.0						~	1513	0
20	Ass Cam OB 1	As*	03 31.6	+58 38						~	94	0
21	HD 28262	*	04 27 08.5014521376	-08 53 54.770451108		8.61	8.57			A0V	13	0
22	* 1 Cam	**	04 32 01.84227	+53 54 39.0450	6.41	5.876	5.772			B0III+B0IV/V	101	0
23	HD 282622	*	04 57 47.0244373440	+30 31 56.514913932		11.95	10.74			A3	4	0
24	HD 282727	Pu*	04 58 33.5073055704	+30 41 51.519772536	9.56	9.60	9.22	9.33		B1.5V	19	0
25	NAME LMC	G	05 23 34.6	-69 45 22			0.4			~	17430	0
26	M 1	SNR	05 34 30.9	+22 00 53						~	6191	1
27	M 43	HII	05 35 31	-05 16.2						~	187	0
28	HD 37061	Or*	05 35 31.3649044920	-05 16 02.582064192	6.44	7.09	6.83			O9.5V	355	0
29	HD 37767	*	05 42 41.4768311544	+36 08 59.441707356	8.61	9.03	8.93			B3V	43	0
30	HD 38658	*	05 48 41.3359176576	+28 19 28.524853956	7.96	8.50	8.37			B3II	44	0
31	HD 39136	*	05 51 54.7749352632	+32 14 23.112783852	8.44	8.88	8.77			B3III	30	0
32	HD 248893	*	05 54 01.7787823656	+22 06 29.419643628	9.57	10.00	9.75			B0III	25	0
33	HD 41831	*	06 08 20.6246390400	+22 12 29.684012220		9.552	9.459	9.279		B3V	19	0
34	HD 252325	Em*	06 09 00.3115263192	+20 38 25.889095968	10.94	11.361	10.758	10.638		O9V(n)	55	1
35	NGC 2175	OpC	06 09 39	+20 29.2		7.0	6.8			~	261	3
36	HD 253327	Y*O	06 12 44.1784712232	+17 59 14.251982856	10.93	11.30	10.75	10.57		B0.5V	31	0
37	GAL 192.58-00.04	HII	06 12 53.16	+18 00 23.3						~	25	0
38	HD 46867	*	06 35 55.1397071544	+05 18 35.200596528	7.88	8.52	8.30			B0.5III-IV	46	0
39	HD 54439	*	07 08 23.1959923944	-11 51 08.558414028	6.98	7.73	7.68	8.58		B1V	59	0
40	HD 73420	*	08 36 37.1155939800	-44 04 48.163266624	8.23	9.41	9.33	9.47		B2II/III	40	0
41	Ass Vel OB 1	As*	08 49.9	-45 00						~	100	0
42	V* GP Vel	HXB	09 02 06.8608812864	-40 33 16.899168060	6.85	7.37	6.87	6.31	6.05	B0.5Ia	1504	0
43	HD 78785	*	09 08 24.0914984616	-46 15 13.238099388	8.70	9.11	8.60	8.04	7.65	B2II	41	0
44	HD 96042	Em*	11 03 40.5641092464	-59 25 59.086384104	7.63	8.41	8.23	9.26		B1V+	70	0
45	HD 137569	pA*	15 26 20.8172517192	+14 41 36.321520992		7.86	7.91			B9Iab:p	103	0
46	HD 141318	Pu*	15 51 06.8041626360	-55 03 19.928655972	5.13	5.756	5.767	7.08		B2III	88	0
47	HD 149452	*	16 37 10.5115048704	-47 07 49.828653588	9.2	10.39	9.40	9.54	8.73	O9IVn	55	0
48	NGC 6193	OpC	16 41 16.6	-48 46 37						~	158	0
49	GUM 55	HII	16 53	-42.2						~	26	0
50	HD 326327	Be*	16 53 39.0780958656	-41 47 48.021660096	9.372	9.969	9.729	10.03	9.312	B1.5Ve	53	0
51	HD 152245	*	16 54 00.4797621624	-40 31 58.152058500	7.71	8.49	8.37			B0Ib	59	0
52	HD 152853	Pu*	16 58 07.9288825488	-45 58 56.456219568	7.35	8.05	7.94	8.78		B0III	46	0
53	HD 156233	*	17 18 26.1399852936	-42 55 54.682883004	8.93	9.49	9.18	9.59		B0	20	0
54	HD 161061	V*	17 44 37.0244119680	-28 10 40.847797704	8.93	9.24	8.47	9.10		B0Ib/II	31	0
55	HD 164492	Y*O	18 02 23.5527520992	-23 01 50.999556180	6.49	7.49	6.80	7.52		O7.5Vz	230	0
56	HD 168021	**	18 18 43.2576402120	-18 37 10.754919264	6.46	7.08	6.86	7.64		B0Ia+B0.2II	82	0
57	BD+31 3235	*	18 18 47.8	+31 57 24						~	1	0
58	HD 168137	Y*O	18 18 56.1894798360	-13 48 31.092549588	8.72	9.36	8.94	9.55		O8Vz	122	0
59	HD 168894	*	18 22 41.5236175680	-14 38 34.143786312	9.65	10.16	9.28	9.70		B0Ia	30	0
60	HD 168785	*	18 22 45.9040189608	-30 08 26.177051004	7.79	8.52	8.51	9.40		B2II	68	0
61	HD 173251	*	18 44 52.6215061152	-14 21 11.223488880	9.48	9.78	9.15	9.54		B1/2Ib	29	0
62	NAME Vul Rift	MoC	19 36 53	+23 04.7						~	24	0
63	NGC 6823	OpC	19 43 10.6	+23 19 16		7.71	7.1			~	270	2
64	HD 344784	*	19 43 10.9730324664	+23 17 45.364272000	9.38	9.86	9.37	9.378		O6.5V((f))	94	0
65	HD 344880	bC*	19 45 42.3144984240	+23 59 04.029288900	9.76	9.96	9.34			B0.5III:nn	32	0
66	HD 344894	bC*	19 45 48.2143953312	+23 11 42.753194232	9.42	9.88	9.61			B5	32	0
67	HD 345214	**	19 53 45.98761	+22 36 34.0413		9.876	9.581	9.641		B3	24	0
68	HD 226868	HXB	19 58 21.6757355952	+35 12 05.784512688	9.38	9.72	8.91	8.42		O9.7Iabpvar	4336	0
69	HD 191396	*	20 08 19.1399573352	+38 07 50.425658904	7.64	8.30	8.12			B0.5II	48	0
70	HD 191611	V*	20 09 26.0772840816	+36 29 19.595624352	8.36	8.87	8.57			B	32	0
71	SIM 55	ISM	20 14 49	+39 09.2						~	9	0
72	HD 229049	*	20 21 01.3525872696	+39 00 52.019255448	9.66	10.04	9.67			B2III:p	27	0
73	HD 194092	*	20 22 05.4431483952	+40 59 08.173612896	7.66	8.37	8.28			B0.5III	57	0
74	BD+45 3341	*	20 57 02.6789000784	+46 32 44.686579956	8.73	9.11	8.73			B1II	32	0
75	BD+52 3122	**	22 08 46.93	+52 58 27.6						~	21	0
76	V* V448 Cep	SB*	22 12 09.7593596928	+53 41 55.627042488	9.45	9.84	9.62			B3II:	36	0
77	HD 211880	EB*	22 18 27.8032795224	+63 13 22.448689068	7.47	7.99	7.75			B0.5V	102	0
78	BD+60 2380	*	22 19 02.8191509112	+60 46 01.374484836	8.93	9.36	9.06			B2III	21	0
79	BD+57 2525	Be*	22 25 03.6639212160	+57 50 29.728377024	10.01	10.47	10.23			B1.5IV-V:ep	40	1
80	BD+55 2770	*	22 33 45.5222630928	+56 31 58.764566388	9.51	10.02	9.76			B1.5III	18	0
81	HD 216248	Pu*	22 50 18.6300174648	+58 39 37.762086024	9.92	10.24	9.9			B2	27	0
82	HD 217035	bC*	22 56 30.941664	+62 52 06.31128	7.66					B0.5Vn+B0.5V	97	0
83	BD+62 2142	*	22 58 03.9325769976	+63 21 44.730003096		9.30	9.04			B5V	19	0
84	BD+62 2154	*	23 00 32.1566531664	+63 30 58.864605552	9.42	9.76	9.33			B1V	36	0
85	HD 218323	*	23 05 56.7066746184	+64 17 42.546510960	7.82	8.11	7.6			B5	62	0
86	BD+63 1964	s*b	23 17 21.5626507224	+64 07 16.165682868	8.79	9.05	8.5			B0Iab	85	0

To bookmark this query, right click on this link: simbad:objects in 2011A&A...527A..34M and select 'bookmark this link' or equivalent in the popup menu