2013A&A...553A..41Z

Query : 2013A&A...553A..41Z

2013A&A...553A..41Z - Astronomy and Astrophysics, volume 553A, 41-41 (2013/5-1)

Proper motions of molecular hydrogen outflows in the ρ Ophiuchi molecular cloud.

ZHANG M., BRANDNER W., WANG H., GENNARO M., BIK A., HENNING T., GREDEL R., SMITH M. and STANKE T.

Abstract (from CDS):

Proper motion measurements provide unique and powerful means to identify the driving sources of mass outflows, which are of particular importance in regions with complex star formation activity and deeply embedded protostars. They also provide the necessary kinematic information to study the dynamics of mass outflows, the interaction between outflows and the ambient medium, and the evolution of outflows with the age of the driving sources. We aim to take a census of molecular hydrogen emission line objects (MHOs) in the ρ Ophiuchi molecular cloud and to make the first systematic proper motion measurements of these objects in this region. The driving sources are identified based on the measured proper motions, and the outflow properties are characterized. The relationship between outflow properties and the evolutionary stages of the driving sources are also investigated. Deep H2 near-infrared imaging is performed to search for molecular hydrogen emission line objects. Multi-epoch data are used to derive the proper motions of the features of these objects, and the lengths and opening angles of the molecular hydrogen outflows. Our imaging covers an area of ∼0.11 deg2 toward the L1688 core in the ρ Ophiuchi molecular cloud. In total, six new MHOs are discovered, 32 previously known MHOs are detected, and the proper motions for 86 features of the MHOs are measured. The proper motions lie in the range of 14 to 247mas/yr, corresponding to transversal velocities of 8 to 140 km/s with a median velocity of about 35 km/s. Based on morphology and proper motion measurements, 27 MHOs are ascribed to 21 driving sources. The molecular hydrogen outflows have a median length of ∼0.04 pc and random orientations. We find no obvious correlation between H2 jet length, jet opening angle, and the evolutionary stage of the driving sources as defined by their spectral indices. We find that the fraction of protostars (23%) that drive molecular hydrogen outflows is similar to the one for Class II sources (15%). For most molecular hydrogen outflows, no obvious velocity variation along the outflow has been found. In Ophiuchus the frequency of occurrence of molecular hydrogen outflows has no strong dependency on the evolutionary stage of the driving source during the evolution from the protostellar stage to the classical T Tauri stage.

Abstract Copyright:

Journal keyword(s): stars: formation - stars: winds, outflows - ISM: jets and outflows - infrared: ISM - shock waves

Simbad objects: 134

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Number of rows : 134
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 NAME Perseus Cloud SFR 03 35.0 +31 13           ~ 1363 0
2 HH 34 HH 05 35 31.30 -06 28 43.0     16     ~ 488 2
3 NAME Ori A MoC 05 38 -07.1           ~ 3008 0
4 HD 147419 WR* 16 24 26.2279587024 -51 32 06.061114140   11.46 10.50 10.74   WN6-s 111 0
5 [KGS2004] f10-01a ? 16 25 57.5 -24 30 07           ~ 2 0
6 HH 418 HH 16 26 13.6 -24 41 00           ~ 6 0
7 [KGS2004] f10-01c ? 16 26 13.6 -24 28 48           ~ 2 0
8 [EDJ2009] 800 Y*? 16 26 14.63 -24 25 07.5           ~ 12 0
9 [KGS2004] f10-01d ? 16 26 14.8 -24 28 39           ~ 2 0
10 [GSWC2003] 11a PoC 16 26 16.0 -24 22 42           ~ 3 0
11 JCMTSE J162616.6-242256 PoC 16 26 16.5 -24 22 47           ~ 4 0
12 [GSWC2003] 19 PoC 16 26 16.9 -24 25 52           ~ 2 0
13 CRBR 2316.0-1626 Y*? 16 26 17.46816 -24 23 12.9552           ~ 22 0
14 [PB2004] O1a ? 16 26 17.8 -27 37 35           ~ 2 0
15 MHO 2149 EmO 16 26 17.90 -24 27 29.4           ~ 1 0
16 [GSWC2003] 13a PoC 16 26 18.8 -24 23 27           ~ 2 0
17 Elia 2-20 TT* 16 26 18.8775818016 -24 28 19.695035064           ~ 119 1
18 [GSWC2003] 13c PoC 16 26 18.9 -24 23 31           ~ 2 0
19 CRBR 2317.5-1729 Y*O 16 26 18.98232 -24 24 14.2596           M6 47 0
20 [GSWC2003] 13b PoC 16 26 19.1 -24 23 26           ~ 2 0
21 [GSWC2003] 14i PoC 16 26 19.8 -24 23 19           ~ 2 0
22 [GSWC2003] 14h PoC 16 26 20.6 -24 23 16           ~ 2 0
23 GSS 30 Y*O 16 26 21.38160 -24 23 04.0524           ~ 210 1
24 [GSWC2003] 14d PoC 16 26 21.6 -24 23 52           ~ 2 0
25 [GSWC2003] 14f PoC 16 26 21.6 -24 23 34           ~ 3 0
26 [GSWC2003] 14e PoC 16 26 21.9 -24 23 40           ~ 3 0
27 [GSWC2003] 14g PoC 16 26 22.0 -24 23 29           ~ 3 0
28 [GSWC2003] 14c PoC 16 26 22.1 -24 24 03           ~ 2 0
29 [GSWC2003] 14a PoC 16 26 22.4 -24 24 09           ~ 2 0
30 [GSWC2003] 14b PoC 16 26 22.6 -24 24 05           ~ 2 0
31 [GY92] 21 Y*O 16 26 23.57976 -24 24 39.4956           K7 71 2
32 [GSWC2003] 17b PoC 16 26 24.0 -24 24 10           ~ 2 0
33 GSS 32 TT* 16 26 24.0509462472 -24 24 48.095495928       17.81 15.58 K5-K6 103 1
34 HH 419 HH 16 26 24.5 -24 30 50           ~ 7 0
35 [DE95] VLA 1623 E PoC 16 26 24.7 -24 24 23           ~ 5 0
36 [GY92] 30 Y*O 16 26 25.48920 -24 23 01.5576           ~ 46 0
37 NAME VLA 1623-243 Y*O 16 26 26.42 -24 24 30.0           ~ 404 0
38 [GSWC2003] 18 PoC 16 26 27.7 -24 24 48           ~ 2 0
39 [KGS2004] f10-04b ? 16 26 28.8 -24 24 50           ~ 2 0
40 [KGS2004] f10-04c ? 16 26 30.7 -24 25 12           ~ 2 0
41 [DMW95] H3 PoC 16 26 31.3 -24 25 17           ~ 6 0
42 [GSWC2003] 20b PoC 16 26 31.9 -24 25 20           ~ 4 0
43 [GSWC2003] 20c PoC 16 26 32.5 -24 25 22           ~ 4 0
44 [DMW95] H2 PoC 16 26 33.1 -24 25 26           ~ 6 0
45 [GSWC2003] 20e PoC 16 26 33.5 -24 25 30           ~ 2 0
46 [DMW95] H1 PoC 16 26 33.9 -24 25 32           ~ 7 0
47 [GSWC2003] 21a PoC 16 26 35.9 -24 25 30           ~ 4 0
48 [GSWC2003] 21b PoC 16 26 36.8 -24 25 41           ~ 3 0
49 [GSWC2003] 21c PoC 16 26 37.7 -24 25 43           ~ 3 0
50 [KGS2004] f10-04l ? 16 26 38.1 -24 25 44           ~ 2 0
51 [GSWC2003] 21d PoC 16 26 38.5 -24 25 49           ~ 2 0
52 HH 314 HH 16 26 39.0 -24 40 53           ~ 9 0
53 [KGS2004] f10-04m IR 16 26 39.1 -24 25 53           ~ 3 0
54 WLY 2-16 Y*O 16 26 40.83456 -24 30 50.9508           M5.75 21 0
55 [GY92] 93 TT* 16 26 41.2666088952 -24 40 17.881012092       15.41 13.37 M5 59 0
56 HH 79 HH 16 26 46.5 -24 20 25           ~ 11 0
57 WL 18 TT* 16 26 48.9809680488 -24 38 25.152593208       19.33 17.38 M3.5 70 0
58 HH 673B HH 16 26 51.8 -24 38 37           ~ 3 0
59 Haro 1-7 ** 16 26 58.53 -24 45 35.3           K2:e+M0.5e 102 0
60 WL 16 Y*O 16 27 02.33520 -24 37 27.2316           A0-F3 157 0
61 [KGS2004] f03-01a ? 16 27 03.3 -24 47 03           ~ 3 0
62 [GY92] 193 Y*O 16 27 04.5156704856 -24 42 59.671949976       16.69 14.97 K6-M1 35 0
63 [KGS2004] f03-01b ? 16 27 04.9 -24 47 01           ~ 2 0
64 MHO 2110 EmO 16 27 04.9 -24 47 01           ~ 1 0
65 [GY92] 197 Y*O 16 27 05.24616 -24 36 29.7936           ~ 69 1
66 [KGS2004] f03-01c ? 16 27 05.5 -24 46 44           ~ 2 0
67 MHO 2112 EmO 16 27 06.4 -24 44 08           ~ 2 0
68 MHO 2115 EmO 16 27 07.7 -24 33 05           ~ 1 0
69 WL 10 Or* 16 27 09.1062090672 -24 34 08.278196304           K9 72 0
70 Elia 2-29 Y*O 16 27 09.43032 -24 37 18.7716           ~ 283 1
71 HH 711 HH 16 27 10.2 -24 17 43           ~ 6 0
72 [GMM2009] Oph L1688 18 Y*O 16 27 11.80 -24 43 58.6           ~ 2 0
73 [GY92] 232 Y*? 16 27 13.26240 -24 41 33.7128           ~ 22 0
74 MHO 2152 EmO 16 27 13.30 -24 26 31.9           ~ 1 0
75 [GY92] 235 Y*O 16 27 13.8206486496 -24 43 31.647995436           M3.5 44 0
76 WLY 2-33 Y*O 16 27 14.50512 -24 26 46.0860           ~ 34 0
77 YLW 10B Y*O 16 27 15.45432 -24 26 39.8004           ~ 51 0
78 BKLT J162716-244710 TT* 16 27 17.0735135784 -24 47 11.155084836   19.8   16.84 15.06 K1 27 0
79 HH 224N HH 16 27 20.0 -24 47 57           ~ 5 0
80 WL 6 Y*O 16 27 21.80448 -24 29 53.3616           ~ 115 0
81 HH 224S HH 16 27 22.6 -24 48 54           ~ 5 0
82 WSB 49 TT* 16 27 22.9688005680 -24 48 07.138268784   16.9   15.06 13.31 M4.25 49 0
83 MHO 2155 EmO 16 27 24.60 -24 29 12.0           ~ 2 0
84 [GSWC2003] 6 PoC 16 27 25.9 -24 28 57           ~ 2 0
85 MHO 2117 EmO 16 27 25.9 -24 28 57           ~ 1 0
86 [KGS2004] f04-05a ? 16 27 26.4 -24 39 58           ~ 2 0
87 YLW 15 Y*O 16 27 26.906 -24 40 50.81           ~ 268 1
88 MHO 2118 EmO 16 27 27.4 -24 39 48           ~ 1 0
89 [KGS2004] f04-05b ? 16 27 27.4 -24 39 48           ~ 2 0
90 YLW 16 IR 16 27 28 -24 39.5           ~ 18 0
91 YLW 16A Y*O 16 27 28.02744 -24 39 33.5052           K8 194 0
92 [KGS2004] f04-06 IR 16 27 28.1 -24 37 57           ~ 3 0
93 MHO 2119 EmO 16 27 28.1 -24 37 56           ~ 1 0
94 MHO 2120 EmO 16 27 28.3 -24 40 28           ~ 1 0
95 [GSWC2003] 7e PoC 16 27 28.4 -24 40 30           ~ 2 0
96 Elia 2-32 Y*O 16 27 28.44576 -24 27 21.0348           K6.5 113 1
97 MHO 2121 EmO 16 27 31.8 -24 38 35           ~ 1 0
98 HH 674 HH 16 27 31.8 -24 38 35           ~ 6 0
99 MHO 2123 EmO 16 27 35.3 -24 38 11           ~ 1 0
100 [GSWC2003] 7c PoC 16 27 35.7 -24 38 13           ~ 2 0
101 [K2003d] rho Oph C8 PoC 16 27 36.6 -24 37 58           ~ 2 0
102 IRAS 16245-2423 TT* 16 27 37.1906433768 -24 30 35.025246828       16.66 14.67 B5-F2 307 0
103 [KGS2004] f04-05h ? 16 27 37.4 -24 37 48           ~ 2 0
104 YLW 47 TT* 16 27 38.3206405584 -24 36 58.594880844       17.69 15.52 M0 94 0
105 SSTYSV J162739.60-244150.3 IR 16 27 39.5 -24 41 50           ~ 4 0
106 MHO 2125 EmO 16 27 39.5 -24 41 49           ~ 1 0
107 YLW 45 Y*O 16 27 39.82824 -24 43 15.0672           ~ 115 0
108 [GSWC2003] 7a PoC 16 27 40.1 -24 38 09           ~ 3 0
109 MHO 2124 EmO 16 27 40.1 -24 37 59           ~ 1 0
110 [GSWC2003] 7b PoC 16 27 40.3 -24 37 57           ~ 3 0
111 [K2003d] rho Oph D1 PoC 16 27 43.0 -24 31 57           ~ 5 0
112 [K2003d] rho Oph E1 PoC 16 27 45.5 -24 45 02           ~ 3 0
113 [GY92] 344 Y*O 16 27 45.78672 -24 44 53.8620           M6 31 0
114 [KGS2004] f05-03 IR 16 27 50.4 -24 40 07           ~ 3 0
115 MHO 2127 EmO 16 27 50.4 -24 40 06           ~ 1 0
116 [KGS2004] f08-01b ? 16 27 51.2 -24 31 46           ~ 3 0
117 [KGS2004] f08-01c ? 16 27 51.5 -24 31 50           ~ 3 0
118 YLW 52 Y*O 16 27 51.80472 -24 31 45.5304           ~ 70 0
119 WLY 2-55 TT* 16 27 52.0872222936 -24 40 50.723707476     16.28 14.48 12.78 K7.5 81 0
120 [K2003d] rho Oph D2 PoC 16 27 58.2 -24 31 26           ~ 3 0
121 MHO 2130 EmO 16 27 58.2 -24 31 26           ~ 2 0
122 [KGS2004] f08-01f ? 16 27 59.2 -24 31 32           ~ 3 0
123 HH 709 HH 16 28 02.9 -24 53 01           ~ 3 0
124 [K2003d] rho Oph D3 PoC 16 28 03.8 -24 30 54           ~ 4 0
125 MHO 2131 EmO 16 28 03.8 -24 30 53           ~ 2 0
126 [KGS2004] f08-01h IR 16 28 05.2 -24 30 39           ~ 4 0
127 NAME Ophiuchus Molecular Cloud SFR 16 28 06 -24 32.5           ~ 3628 1
128 YLW 58 TT* 16 28 16.5129208176 -24 36 58.054939128   18.5   16.55 14.46 M4 100 0
129 [SSG2006] MMS126 Y*O 16 28 21.61 -24 36 23.4           ~ 36 0
130 NAME Serpens Cloud SFR 18 29 49 +01 14.8           ~ 1100 2
131 NAME Aql Region reg 18 31.1 -02 10           ~ 391 0
132 DR 21 SFR 20 39 01.6 +42 19 38           O4.5 1053 0
133 NAME Cyg X FIR 36 Rad 20 39 01.6 +42 22 47           ~ 118 1
134 NAME HH 224NW1 HH ~ ~           ~ 3 0

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