2015MNRAS.453..645M

Query : 2015MNRAS.453..645M

2015MNRAS.453..645M - Mon. Not. R. Astron. Soc., 453, 645-665 (2015/October-2)

A distance-limited sample of massive molecular outflows.

MAUD L.T., MOORE T.J.T., LUMSDEN S.L., MOTTRAM J.C., URQUHART J.S. and HOARE M.G.

Abstract (from CDS):

We have observed 99 mid-infrared-bright, massive young stellar objects and compact HII regions drawn from the Red MSX source survey in the J = 3-2 transition of 12CO and 13CO, using the James Clerk Maxwell Telescope. 89 targets are within 6kpc of the Sun, covering a representative range of luminosities and core masses. These constitute a relatively unbiased sample of bipolar molecular outflows associated with massive star formation. Of these, 59, 17 and 13 sources (66, 19 and 15 percent) are found to have outflows, show some evidence of outflow, and have no evidence of outflow, respectively. The time-dependent parameters of the high-velocity molecular flows are calculated using a spatially variable dynamic time-scale. The canonical correlations between the outflow parameters and source luminosity are recovered and shown to scale with those of low-mass sources. For coeval star formation, we find the scaling is consistent with all the protostars in an embedded cluster providing the outflow force, with massive stars up to ∼ 30M_☉ generating outflows. Taken at face value, the results support the model of a scaled-up version of the accretion-related outflow-generation mechanism associated with discs and jets in low-mass objects with time-averaged accretion rates of ∼ 10^–3M_☉/yr on to the cores. However, we also suggest an alternative model, in which the molecular outflow dynamics are dominated by the entrained mass and are unrelated to the details of the acceleration mechanism. We find no evidence that outflows contribute significantly to the turbulent kinetic energy of the surrounding dense cores.

Journal keyword(s): stars: abundances - stars: formation - stars: massive - stars: protostars - stars: winds, outflows

VizieR on-line data: <Available at CDS (J/MNRAS/453/645): table1.dat table2.dat table3.dat table4.dat>

Simbad objects: 102

Full paper

View the references in ADS

Number of rows : 102

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	IRAS 01133+6434	Y*O	01 16 36.67827	+64 50 41.7300						~	37	0
2	2MASS J01175302+6427142	Y*O	01 17 53.0277209359	+64 27 14.289051463						~	16	0
3	IRAS 02044+6031	Y*O	02 08 05.0355540072	+60 46 00.603102324						~	68	1
4	MSX6C G133.6945+01.2166	Y*O	02 25 31.1	+62 06 22						~	7	1
5	2MASS J02254077+6205524	Y*O	02 25 40.778	+62 05 52.45						~	8	0
6	MSX6C G133.9476+01.0648	HII	02 27 04.1	+61 52 26						~	3	0
7	IRAS 02252+6120	Y*O	02 29 01.93	+61 33 30.5						~	45	0
8	RAFGL 5085	Y*O	02 50 08.5608261912	+61 59 51.902005956						~	42	0
9	MSX6C G138.2957+01.5552	Y*O	03 01 31.253	+60 29 13.07						~	25	0
10	MSX6C G139.9091+00.1969	Y*O	03 07 24.0	+58 30 49						~	10	0
11	GAL 142.25+01.43	Y*O	03 27 31.405	+58 19 22.00						~	27	0
12	RAFGL 490	Y*O	03 27 38.7928952784	+58 47 00.025298088						~	352	0
13	MSX6C G148.1201+00.2928	Y*O	03 56 15.36	+53 52 13.0						~	6	0
14	MSX6C G192.5843-00.0417	Y*O	06 12 53.4	+18 00 24						~	6	2
15	MMB G192.600-00.048	Y*O	06 12 54.0100	+17 59 23.200						~	401	0
16	2MASS J06131613+1522433	Y*O	06 13 16.154	+15 22 43.08						~	5	0
17	IRAS 06104+1524A	HII	06 13 21.40	+15 23 57.2						~	20	0
18	MSX6C G196.4542-01.6777	Y*O	06 14 37.06	+13 49 36.4						~	6	0
19	RAFGL 961	Y*O	06 34 37.74144	+04 12 44.1972						O-rich	240	1
20	NGC 2264	OpC	06 40 52.1	+09 52 37						~	1793	0
21	RAFGL 989	Y*O	06 41 10.1587451112	+09 29 33.635220144		17.4	16.8	18.26	17.28	B2	266	0
22	IRAS 06446+0029	Y*O	06 47 13.3609352982	+00 26 06.026090997						~	28	1
23	RAFGL 5232	Y*O	07 30 16.7317253640	-18 35 49.105365144	19.688	18.820	17.821	16.920	14.584	Ae	21	0
24	MSX6C G234.6358+00.8281	HII	07 35 40.9	-18 48 59						~	10	1
25	LDN 1746	DNe	17 11.3	-27 22						~	138	0
26	OH 012.03-00.04	Y*O	18 12 01.8400	-18 31 55.800						~	82	0
27	W 33a	Y*O	18 14 39.56547	-17 52 02.2260						~	698	0
28	MSX5C G013.6559-00.5997	Y*O	18 17 24.3	-17 22 16						~	7	0
29	IRAS 18151-1208	Y*O	18 17 58.1254	-12 07 24.893						~	106	0
30	2MASS J18191220-2047297	Y*O	18 19 12.21	-20 47 29.7						B1	133	0
31	RAFGL 2136	Y*O	18 22 26.52888	-13 30 14.0400						~	285	0
32	IRAS 18264-1052	Y*O	18 29 12.19800	-10 50 34.7064						~	18	0
33	MSX6C G020.7491-00.0898	Y*O	18 29 16.4	-10 52 01						~	4	0
34	MSX6C G020.7438-00.0952	Y*O	18 29 17.0	-10 52 27						~	4	0
35	IRAS 18305-0826	Y*O	18 33 14.3240	-08 23 57.500						~	19	0
36	CORNISH G023.7110+00.1705	Y*O	18 33 53.47	-08 07 13.7						~	8	0
37	IRAS 18321-0820	Y*O	18 34 51.5650	-08 18 21.305						~	45	0
38	AGAL G025.409+00.106	cor	18 37 16	-06 38.6						~	53	0
39	ISOGAL-P J183802.9-062347	Y*?	18 38 02.80	-06 23 47.0						~	32	0
40	MSX6C G028.2007-00.0494	Y*O	18 42 58.2	-04 13 56						~	6	1
41	RAFGL 2243	Y*O	18 44 15.083	-04 17 58.55						~	26	0
42	SSTGLMC G028.3052-00.3853	Y*O	18 44 21.40	-04 17 33.0						~	6	2
43	IRAS 18440-0148	cor	18 46 36.56	-01 45 21.2						~	59	0
44	ISOGAL-P J184703.1-023036	Y*O	18 47 03.0698	-02 30 36.268						~	24	1
45	MSX6C G030.6877-00.0729	Y*O	18 47 36.2	-02 01 49						~	8	1
46	2MASS J18473754-0208198	Y*O	18 47 37.5435646776	-02 08 19.917664836						~	7	0
47	CORNISH G030.7197-00.0829	Y*O	18 47 41.79	-02 00 22.3						~	22	0
48	IRAS 18490+0026	Y*O	18 51 33.81816	+00 29 51.0972						~	26	0
49	IRAS 18566+0408	Y*O	18 59 09.95520	+04 12 15.6240						~	133	0
50	WISE J191151.59+094941.1	Y*O	19 11 51.650	+09 49 40.26						~	8	0
51	IRAS 19110+1045	Y*O	19 13 22.0427	+10 50 53.336						~	126	0
52	MSX6C G048.9897-00.2992	Y*O	19 22 26.1348	+14 06 39.133						~	29	1
53	MSX6C G049.5531-00.3302	Y*O	19 23 38.9	+14 35 33						~	4	0
54	IRAS 19236+1456	Y*O	19 25 57.935	+15 03 01.76						~	16	0
55	CORNISH G053.9589+00.0320	Y*O	19 31 05.22	+18 38 16.9						~	11	0
56	IRAS 19310+1745	Y*O	19 33 16.3909359240	+17 52 04.934179128						~	14	0
57	MSX5C G073.0625+01.7962	Y*O	20 08 10.0	+35 59 22						~	5	0
58	IRAS 20126+4104	Y*O	20 14 25.8816769656	+41 13 36.879427236						B2.5-B0.5	441	0
59	MSX6C G075.7666+00.3424	Y*O	20 21 41.5	+37 25 51						~	5	0
60	MSX6C G079.1272+02.2782	Y*O	20 23 23.9	+41 17 39						~	7	0
61	RAFGL 2591	Y*O	20 29 24.8230	+40 11 19.590						~	622	0
62	MSX6C G077.9550+00.0058	HII	20 29 32.0	+39 01 18						~	3	0
63	MSX6C G077.9637-00.0075	Y*O	20 29 36.9	+39 01 16						~	6	0
64	2MASS J20302733+4116000	Y*O	20 30 27.336	+41 16 00.04						~	8	0
65	MSX6C G083.0936+03.2724	Y*O	20 31 35.4	+45 05 48						~	7	1
66	MSX6C G083.7071+03.2817	Y*O	20 33 36.5573443078	+45 35 43.865615695						~	10	0
67	MSX6C G083.7962+03.3058	Y*O	20 33 48.1	+45 40 54						~	6	1
68	MSX6C G080.8645+00.4197	Y*O	20 36 52.175	+41 36 24.74						~	10	1
69	MSX6C G080.8624+00.3827	Y*O	20 37 01.3	+41 34 57						~	4	0
70	MSX6C G081.8652+00.7800	Y*O	20 38 35.36	+42 37 13.7						~	8	0
71	MSX6C G081.8789+00.7822	Y*O	20 38 37.73	+42 37 59.4						~	8	1
72	2MASS J20385719+4222409	Y*O	20 38 57.19	+42 22 41.0						~	12	0
73	MSX6C G081.7220+00.5699	Y*O	20 39 01.4	+42 22 47						~	7	0
74	MSX6C G081.7522+00.5906	Y*O	20 39 01.9930	+42 24 59.290						~	30	0
75	2MASS J20390285+4222001	Y*O	20 39 02.85336	+42 22 00.1992						~	11	0
76	[DKS2007] 13	Y*O	20 39 03.72	+42 25 29.6						~	12	0
77	IRAS Z20376+4109	Y*O	20 39 25.8	+41 20 02						~	25	1
78	MSX6C G085.4102+00.0032	Y*O	20 54 13.8	+44 54 07						~	5	1
79	MSX6C G094.3228-00.1671	Y*O	21 31 45.11	+51 15 35.3						~	6	0
80	IRAS 21334+5039	Y*O	21 35 09.10944	+50 53 09.6072						~	42	0
81	V* V645 Cyg	Ae*	21 39 58.2745507632	+50 14 21.042184668		14.23	13.10	13.82		O6/9eq	273	0
82	IRAS 22134+5834	Y*O	22 15 09.08	+58 49 07.8						~	72	0
83	MSX6C G100.3779-03.5784	Y*O	22 16 10.3651	+52 21 34.113						~	16	0
84	IRAS 22305+5803	Y*O	22 32 23.972	+58 18 57.91						~	37	0
85	MSX6C G105.6270+00.3388	Y*O	22 32 45.8	+58 28 19						~	6	1
86	IRAS 22534+5653	Y*O	22 55 29.82	+57 09 24.9						~	17	0
87	NAME Cep A HW 2	Y*O	22 56 17.9	+62 01 49						B0.5	227	0
88	MSX5C G109.8719+02.1158	Y*O	22 56 18.1	+62 01 56						~	6	0
89	IRAS 22566+5828	Y*O	22 58 47.25	+58 45 01.6						~	24	0
90	MSX6C G109.0775-00.3524	Y*O	22 58 58.9	+59 27 36						~	4	0
91	MSX6C G109.0974-00.3458	Y*O	22 59 06.1	+59 28 27						~	4	0
92	MSX6C G108.4714-02.8176	Y*O	23 02 32.0800	+56 57 51.400						~	13	0
93	MSX6C G110.1082+00.0473	Y*O	23 05 10.3	+60 14 46						~	7	1
94	IRAS 23033+5951	Y*O	23 05 25.1762883456	+60 08 15.374293800						~	96	0
95	MSX6C G111.5234+00.8004	Y*O	23 13 32.3	+61 29 04						~	4	0
96	[WBN74] NGC 7538 IRS 11	Y*O	23 13 43.901	+61 26 57.98						~	56	0
97	[WBN74] NGC 7538 IRS 1	Y*O	23 13 45.318	+61 28 11.69						~	414	3
98	MSX6C G111.5851+00.7976	Y*O	23 14 01.728	+61 30 16.20						~	6	0
99	IRAS 23118+6110	Y*O	23 14 02.09473	+61 27 18.8460						~	376	0
100	IRAS 23139+5939	Y*O	23 16 10.3420	+59 55 28.596						~	97	0
101	MSX6C G111.2348-01.2385	Y*O	23 17 20.7888	+59 28 46.970						~	13	0
102	IRAS 23262+6401	Y*O	23 28 27.76320	+64 17 38.4792						~	16	0

To bookmark this query, right click on this link: simbad:objects in 2015MNRAS.453..645M and select 'bookmark this link' or equivalent in the popup menu