2007A&A...468.1009H

Query : 2007A&A...468.1009H

2007A&A...468.1009H - Astronomy and Astrophysics, volume 468, 1009-1024 (2007/6-4)

Star formation in Perseus. II. SEDs, classification, and lifetimes.

HATCHELL J., FULLER G.A., RICHER J.S., HARRIES T.J. and LADD E.F.

Abstract (from CDS):

Hatchell et al. (2005A&A...440..151H) (Paper I) published a submillimetre continuum map of the Perseus molecular cloud, detecting the starless and protostellar cores within it. To determine the evolutionary stage of each submm core in Perseus, and investigate the lifetimes of these phases. We compile spectral energy distributions (SEDs) from 2MASS (1-2µm), Spitzer IRAC (3.6, 4.5, 5.8, 8.0µm), Michelle (11 and 18µm), IRAS (12, 25, 60, 100µm), SCUBA (450 and 850µm) and Bolocam (1100 µm) data. Sources are classified starless/protostellar on the basis of infrared and/or outflow detections and Class I/Class 0 on the basis of T_bol, L_bol/L_smm and F_3.6/F₈₅₀. In order to investigate the dependence of these evolutionary indicators on mass, we construct radiative transfer models of Class 0 sources. Of the submm cores, 56/103 (54%) are confirmed protostars on the basis of infrared emission or molecular outflows. Of these, 22 are classified Class 1 on the basis of three evolutionary indicators, 34 are Class 0, and the remaining 47 are assumed starless. Perseus contains a much greater fraction of Class 0 sources than either Taurus or Rho Oph. We derive estimates for the correlation between bolometric luminosity and envelope mass for Class I and Class 0 sources. Comparing the protostellar with the T Tauri population, the lifetime of the protostellar phase in Perseus is 0.25-0.67Myr (95% confidence limits). The relative lifetime of the Class 0 and Class 1 phases are similar, confirming the results of Visser et al. (2002AJ....124.2756V) in isolated cores. We find that for the same source geometry but different masses, evolutionary indicators such as T_bol vary their value. It is therefore not always appropriate to use a fixed threshold to separate Class 0 and Class I sources. More modelling is required to determine the observational characteristics of the Class 0/Class I boundary over a range of masses.

Abstract Copyright: ∼

Journal keyword(s): submillimeter - stars: formation - stars: evolution - ISM: structure - ISM: dust, extinction

VizieR on-line data: <Available at CDS (J/A+A/468/1009): table4.dat table5.dat refs.dat>

Nomenclature: Tables 4, 5: [HFR2007] NNN N=81 among (Nos 1-101), [HFR2007] clf NN N=6 among (Nos 55-79).

Simbad objects: 123

Full paper

View the references in ADS

Number of rows : 123

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2024	#notes
1	LDN 1448	DNe	03 22.5	+30 35				~	516	0
2	IRAS 03222+3034	Y*O	03 25 22.32	+30 45 13.9				~	149	0
3	JCMTSE J032525.9+304502	Y*O	03 25 25.9	+30 45 03				~	53	0
4	LDN 1448NW	Y*O	03 25 35.66	+30 45 34.2				~	71	0
5	2MASS J03253643+3045252	NIR	03 25 36.437	+30 45 25.22				~	1	0
6	SSTc2d J032536.4+304522	Y*O	03 25 36.49	+30 45 22.2				~	200	1
7	2MASS J03253652+3045070	Rad	03 25 36.526	+30 45 07.05				~	1	0
8	IRAS F03226+3033	Y*O	03 25 38.83	+30 44 06.2				~	335	0
9	[SDA2014] West4	Y*O	03 25 38.83	+30 44 06.2				~	256	1
10	[EYG2006] Bolo 11	cor	03 25 46.0	+30 44 10				~	9	0
11	[KJT2007] SMM J032581+30423	cor	03 25 49.0	+30 42 25				~	17	1
12	[HFR2007] 86	smm	03 26 30.9	+30 32 28				~	2	0
13	IRAS 03235+3004	Y*O	03 26 37.425	+30 15 28.39				~	87	0
14	NAME LDN 1455 IRS 5	Y*O	03 27 38.255	+30 13 58.57				~	49	0
15	NAME LDN 1455 IRS 1	cor	03 27 39.08	+30 13 03.1				~	161	0
16	JCMTSE J032739.7+301217	smm	03 27 39.9	+30 12 10				~	15	0
17	NAME LDN 1455 IRS 4	cor	03 27 43.23	+30 12 28.9				~	74	0
18	2MASS J03274767+3012043	Y*O	03 27 47.6828532408	+30 12 04.456916028	19.6			M3.0	103	1
19	LDN 1455	DNe	03 28 00.6480	+30 07 58.800				~	187	1
20	[HFR2007] clf 70	smm	03 28 21.5	+30 20 31				~	1	0
21	[HFR2007] clf 74	smm	03 28 24.5	+30 20 28				~	1	0
22	[HFR2007] clf 79	smm	03 28 24.8	+30 20 49				~	1	0
23	[EYG2006] Bolo 26	cor	03 28 32.4	+31 04 43				~	9	0
24	[HFR2007] 85	smm	03 28 32.5	+31 00 53				~	2	0
25	2MASS J03283258+3111040	cor	03 28 32.581	+31 11 04.10				~	46	0
26	[EYG2006] Bolo 27	mm	03 28 33.3	+30 19 35				~	6	0
27	JCMTPP J032834.6+310704	Y*?	03 28 34.53	+31 07 05.5				~	35	0
28	IRAS 03255+3103	Y*O	03 28 37.06800	+31 13 31.0044				~	89	1
29	[EYG2006] Bolo 30	Y*O	03 28 39.10	+31 06 01.7				~	35	0
30	[HRF2005] 60	Y*O	03 28 39.3	+31 18 27				~	15	0
31	[HFR2007] 55	cor	03 28 40.63	+31 17 56.5				~	38	1
32	[HFR2007] clf 77	smm	03 28 41.1	+30 25 32				~	1	0
33	JCMTSE J032842.4+310614	cor	03 28 42.6	+31 06 10				~	15	1
34	[HFR2007] clf 68	smm	03 28 51.40	+30 13 40.2				~	1	0
35	IRAS 03258+3104	Y*O	03 28 55.30	+31 14 27.8				~	168	1
36	[JCC87] IRAS 2A	Y*O	03 28 55.55	+31 14 36.7				~	460	3
37	ASR 64	Y*O	03 28 57.11	+31 19 11.9				M7.3	16	0
38	[EYG2006] Bolo 40	cor	03 28 59.63	+31 21 33.9				~	26	0
39	[SK2001] 1	Y*O	03 29 00.55	+31 12 00.8				~	58	1
40	ASR 114	Y*O	03 29 01.16520	+31 20 24.4140				~	74	1
41	V* V512 Per	Or*	03 29 03.7578170808	+31 16 03.947525688				M3.5	386	0
42	[SDA2014] West40	Y*O	03 29 04.06	+31 14 46.5				~	61	0
43	[EYG2006] Bolo 44	cor	03 29 04.5	+31 18 42				~	10	0
44	[HFR2007] 53	smm	03 29 04.75	+31 20 59.0				~	15	0
45	JCMTSE J032905.1+312207	cor	03 29 05.64	+31 22 15.5				~	11	0
46	ASR 6	Y*O	03 29 06.425	+31 15 34.86				~	157	1
47	JCMTSE J032906.9+311725	cor	03 29 07.06	+31 17 25.6				~	35	0
48	[LAL96] 213	Y*O	03 29 07.739	+31 21 57.52				~	62	0
49	[EYG2006] Bolo 46	cor	03 29 08.90	+31 15 20.8				~	24	0
50	[JCC87] IRAS 4A	Y*O	03 29 10.49	+31 13 30.8				~	716	1
51	2MASS J03291063+3121469	cor	03 29 10.636	+31 21 46.97				~	16	0
52	[JCC87] IRAS 4	FIR	03 29 10.9	+31 13 26				~	478	0
53	NGC 1333	OpC	03 29 11.3	+31 18 36				~	1454	1
54	[KJD2006] SMM J032917+31184	Y*O	03 29 11.3	+31 18 25				~	61	0
55	[JCC87] IRAS 4B	Y*O	03 29 12.058	+31 13 02.05				~	600	0
56	[JCC87] IRAS 4C	Y*O	03 29 13.54	+31 13 58.2				~	107	1
57	JCMTSE J032914.9+312030	cor	03 29 15.64	+31 20 30.8				~	18	0
58	[EYG2006] Bolo 51	cor	03 29 16.5	+31 12 35				~	12	0
59	JCMTPP J032917.2+312746	Y*O	03 29 17.17	+31 27 46.5				~	41	0
60	[KJD2006] SMM J032930+31251	cor	03 29 18.28	+31 25 06.3				~	20	0
61	2MASS J03291844+3111304	cor	03 29 18.4028982744	+31 11 30.572141784				~	15	0
62	JCMTSE J032918.7+312312	cor	03 29 19.04	+31 23 13.7				~	19	0
63	2MASS J03292003+3124076	Y*O	03 29 20.036	+31 24 07.65				~	34	1
64	SCOPE G158.19-20.25	cor	03 29 23.3	+31 36 08				~	10	0
65	SSTc2d J032923.9+313320	cor	03 29 23.9	+31 33 20				~	14	1
66	[EYG2006] Bolo 58	cor	03 29 25.5	+31 28 18				~	63	0
67	IRAS 03271+3013	cor	03 30 15.159	+30 23 49.38				~	70	0
68	[DCE2008] 081	cor	03 30 32.68	+30 26 26.6				~	27	2
69	[EYG2006] Bolo 64	cor	03 30 50.4	+30 49 17				~	5	0
70	IRAS 03282+3035	cor	03 31 20.98	+30 45 30.1				~	176	0
71	[HFR2007] 88	smm	03 31 31.6	+30 43 32				~	5	0
72	[HFR2007] clf 55	smm	03 32 14.7	+31 23 37				~	1	0
73	IRAS 03292+3039	cor	03 32 17.96	+30 49 47.5				~	82	0
74	[HFR2007] 84	smm	03 32 21.90	+31 04 55.6				~	1	0
75	[EYG2006] Bolo 67	cor	03 32 26.1	+30 59 00				~	8	0
76	[EYG2006] Bolo 70	cor	03 32 44.0	+31 00 00				~	9	0
77	[HFR2007] 83	smm	03 32 48.9	+31 09 40				~	2	0
78	[KJT2007] SMM 36	cor	03 33 01.9	+31 04 23				~	11	0
79	[KJT2007] SMM J033321+31198	cor	03 33 13.4	+31 19 53				~	15	0
80	Barnard 1	MoC	03 33 16.3	+31 07 51				~	325	0
81	JCMTSE J033315.9+310656	Y*O	03 33 16.44	+31 06 52.5				~	45	0
82	2MASS J03331667+3107548	Y*O	03 33 16.68	+31 07 54.9				~	125	2
83	JCMTSE J033317.8+310932	cor	03 33 17.85	+31 09 31.9				~	114	0
84	[HKM99] B1-b	cor	03 33 20.32	+31 07 21.5				~	213	0
85	SSTc2d J033327.2+310710	cor	03 33 27.29	+31 07 10.2				~	51	0
86	NAME Perseus Cloud	SFR	03 35.0	+31 13				~	1370	0
87	[EYG2006] Bolo 89	cor	03 40 49.3	+31 48 34				~	6	0
88	AP J03410913+3144378	cor	03 41 09.1372476624	+31 44 37.906318320				~	24	0
89	[EYG2006] Bolo 92	cor	03 41 40.0	+31 58 05				~	5	0
90	[EYG2006] Bolo 94	cor	03 41 45.8	+31 57 22				~	5	0
91	Ass Per OB 2	As*	03 42.2	+33 26				~	339	0
92	JCMTSE J034338.3+320308	cor	03 43 38.3	+32 03 04				~	16	0
93	[HFR2007] 24	smm	03 43 42.50	+32 03 23.0				~	6	0
94	[KJT2007] 27	cor	03 43 44.0	+32 02 50				~	20	0
95	SCOPE G160.44-17.98	smm	03 43 51	+32 03.4				~	17	1
96	HH 211	Y*O	03 43 56.52	+32 00 52.8				~	370	0
97	NAME IC 348 MMS	cor	03 43 56.84	+32 03 04.7				~	80	1
98	[KJT2007] SMM J034396+32040	cor	03 43 57.9	+32 04 02				~	21	0
99	[KJT2007] SMM J034401+32019	cor	03 44 01.2	+32 01 56				~	20	1
100	[HFR2007] 21	smm	03 44 02.30	+32 02 48.0				~	6	0
101	[KJT2007] SMM J034404+32024	cor	03 44 02.9	+32 02 26				~	18	0
102	JCMTSE J034406.1+320215	cor	03 44 06.2	+32 02 11				~	16	0
103	IRAS 03410+3152	Y*O	03 44 12.980	+32 01 35.50				~	56	0
104	JCMTSF J034414.4+315753	cor	03 44 14.5	+31 57 53				~	11	0
105	Cl* IC 348 LRL 329	TT*	03 44 15.5745024960	+32 09 21.826029564		20.94	17.550	M7.5	35	0
106	JCMTSF J034421.0+315923	cor	03 44 21.3	+31 59 23				~	13	0
107	[EYG2006] Bolo 114	cor	03 44 23.10	+32 10 01.1				~	5	0
108	IC 348	OpC	03 44 31.7	+32 09 32				~	1395	1
109	[KJT2007] SMM J034461+31588	cor	03 44 36.9	+31 58 47				~	16	0
110	SSTc2d J034443.9+320136	cor	03 44 43.893	+32 01 37.37				~	24	1
111	[KJT2007] SMM J034481+32005	cor	03 44 48.9	+32 00 29				~	17	0
112	JCMTSF J034516.5+320449	cor	03 45 16.80	+32 04 46.4				~	12	0
113	[EYG2006] Bolo 121	cor	03 47 33.5	+32 50 55				~	7	0
114	NAME [BM89] B5	DNe	03 47 38.3	+32 52 43				~	224	0
115	[KJT2007] SMM 3	smm	03 47 39.1	+32 52 18				~	14	0
116	IRAS 03445+3242	Y*O	03 47 41.603	+32 51 43.79				~	201	0
117	LDN 1471	DNe	03 48.0	+32 54				~	329	0
118	NAME Tau-Aur Complex	SFR	04 30	+25.0				~	1358	0
119	NAME Taurus Complex	SFR	04 41.0	+25 52				~	4425	0
120	NAME Orion Molecular Cloud	MoC	05 56	-01.8				~	1101	1
121	NAME Mon R 2 GMC	MoC	06 07.6	-06 23				~	27	1
122	NAME Ophiuchus Molecular Cloud	SFR	16 28 06	-24 32.5				~	3634	1
123	NAME Serpens Cloud	SFR	18 29 49	+01 14.8				~	1101	2

To bookmark this query, right click on this link: simbad:objects in 2007A&A...468.1009H and select 'bookmark this link' or equivalent in the popup menu