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SAN10 - VLBI study of maser kinematics in high-mass star-forming regions. I. G16.59-0.05

Interferometry data

Short title: Sanna et al. (2010)
Authors: Sanna, A.Moscadelli, L.Cesaroni, R.Tarchi, A.Furuya, R. S.Goddi, C.
Journal: Astronomy and Astrophysics, Volume 517, id.A71, 15 pp.
Bibcode:

Target type: High_mass_SFR
Transitions: H2O_22,CH3OH_6(II)

Abstract
Aims: To study the high-mass star-forming process, we started a large project to unveil the gas kinematics close to young stellar objects (YSOs) through the Very Long Baseline Interferometry (VLBI) of maser associations. By comparing the high spatial resolution maser data that traces the inner kinematics of the (proto)stellar cocoon with interferometric thermal data that traces the large-scale environment of the hot molecular core (HMC) harboring the (proto)stars, we can investigate the nature and identify the sources of large-scale motions. The present paper focuses on the high-mass star-forming region G16.59-0.05. Methods: Using the VLBA and the EVN arrays, we conducted phase-referenced observations of the three most powerful maser species in G16.59-0.05: H2O at 22.2 GHz (4 epochs), CH3OH at 6.7 GHz (3 epochs), and OH at 1.665 GHz (1 epoch). In addition, we performed high-resolution (𕟲.1 arcsec), high-sensitivity (< 0.1 mJy) VLA observations of the radio continuum emission from the star-forming region at 1.3 and 3.6 cm. Results: This is the first work to report accurate measurements of the relative proper motions of the 6.7 GHz CH3OH masers. The different spatial and 3-D velocity distributions clearly indicate that the 22 GHz water and 6.7 GHz methanol masers trace different kinematic environments. The bipolar distribution of 6.7 GHz maser line-of-sight velocities and the regular pattern of observed proper motions suggest that these masers are tracing rotation around a central mass of about 35 M⊙. The flattened spatial distribution of the 6.7 GHz masers, oriented NW-SE, suggests that they can originate in a disk/toroid rotating around the massive YSO that drives the 12CO (2-1) outflow, oriented NE-SW, observed on an arcsec scale. The extended, radio continuum source observed close to the 6.7 GHz masers could be excited by a wide-angle wind emitted from the YSO associated with the methanol masers, and such a wind has proven to be energetic enough to drive the NE-SW 12CO (2-1) outflow. The H2O masers are distributed across a region offset about 0.5 arcsec to the NW of the CH3OH masers, in the same area as where the emission of high-density molecular tracers, typical of HMCs, was detected. We postulate that a distinct YSO, possibly in an earlier evolutionary phase than what excites the methanol masers, is responsible for the excitation of the water masers and the HMC molecular lines.

Abstract

Aims: To study the high-mass star-forming process, we started a large project to unveil the gas kinematics close to young stellar objects (YSOs) through the Very Long Baseline Interferometry (VLBI) of maser associations. By comparing the high spatial resolution maser data that traces the inner kinematics of the (proto)stellar cocoon with interferometric thermal data that traces the large-scale environment of the hot molecular core (HMC) harboring the (proto)stars, we can investigate the nature and identify the sources of large-scale motions. The present paper focuses on the high-mass star-forming region G16.59-0.05. Methods: Using the VLBA and the EVN arrays, we conducted phase-referenced observations of the three most powerful maser species in G16.59-0.05: H2O at 22.2 GHz (4 epochs), CH3OH at 6.7 GHz (3 epochs), and OH at 1.665 GHz (1 epoch). In addition, we performed high-resolution (𕟲.1 arcsec), high-sensitivity (< 0.1 mJy) VLA observations of the radio continuum emission from the star-forming region at 1.3 and 3.6 cm. Results: This is the first work to report accurate measurements of the relative proper motions of the 6.7 GHz CH3OH masers. The different spatial and 3-D velocity distributions clearly indicate that the 22 GHz water and 6.7 GHz methanol masers trace different kinematic environments. The bipolar distribution of 6.7 GHz maser line-of-sight velocities and the regular pattern of observed proper motions suggest that these masers are tracing rotation around a central mass of about 35 M⊙. The flattened spatial distribution of the 6.7 GHz masers, oriented NW-SE, suggests that they can originate in a disk/toroid rotating around the massive YSO that drives the 12CO (2-1) outflow, oriented NE-SW, observed on an arcsec scale. The extended, radio continuum source observed close to the 6.7 GHz masers could be excited by a wide-angle wind emitted from the YSO associated with the methanol masers, and such a wind has proven to be energetic enough to drive the NE-SW 12CO (2-1) outflow. The H2O masers are distributed across a region offset about 0.5 arcsec to the NW of the CH3OH masers, in the same area as where the emission of high-density molecular tracers, typical of HMCs, was detected. We postulate that a distinct YSO, possibly in an earlier evolutionary phase than what excites the methanol masers, is responsible for the excitation of the water masers and the HMC molecular lines.

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Detection table from Sanna et al. (2010)

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ID	Obs. RA	Obs. Dec	RA offset	Dec offset	l	b	Group id	#	Maser spot	Source name	Image	Descr.	Line	V_peak	V_X	V_Y	F_peak	Telescope	V_step	RMS	Beam	PA	Detection	Class	Dist. (parallax)	Date
	(J2000)	(J2000)	(mas)	(mas)	(deg.)	(deg.)							H₂O	(km/s)	(km/s)	(km/s)	(Jy/beam)		(km/s)	(Jy/beam)	(arcsec)	(deg.)	Yes/No		(kpc)
1	+18 21 9.09211	-14 31 48.679			16.585137	-0.05061	G16.585-0.051			G16.59-0.05_H2O	Image	Descr	22_Ghz;	51.36 .. 67.89			0.1 .. 65.49	VLBA	0.2	0.040	0.0014 x 0.0004	-16	+H₂O +CH₃OH I +CH₃OH II +OH	SFR		Apr-Sep 2006
	+18 21 9.08506	-14 31 48.548	-106.46 mas	132.43 mas	16.585156	-0.050568		1	1	G16.59-0.05_H2O				65.48	-17.4 (6.9)	40.8 (12.9)	65.49 (2)
	+18 21 9.08476	-14 31 48.5378	-110.94 mas	142.62 mas	16.585157	-0.050566		2	2	G16.59-0.05_H2O				64.85			40.19 (4)
	+18 21 9.0849	-14 31 48.541	-108.89 mas	139.37 mas	16.585157	-0.050567		3	3	G16.59-0.05_H2O				65.06	-23.3 (5.5)	42.8 (7.8)	27.55 (3)
	+18 21 9.09216	-14 31 48.6804	0 mas	0 mas	16.585137	-0.050611		4	4	G16.59-0.05_H2O				60.93			22.98 (1)
	+18 21 9.0993	-14 31 48.5705	107.14 mas	109.94 mas	16.585177	-0.050622		5	5	G16.59-0.05_H2O				60.09	-0.1 (7.0)	39.7 (13.3)	15.89 (1)
	+18 21 9.0847	-14 31 48.537	-111.92 mas	143.4 mas	16.585158	-0.050565		6	6	G16.59-0.05_H2O				64.52	-3.3 (4.0)	19.7 (4.4)	11.63 (1)
	+18 21 9.08499	-14 31 48.5486	-107.5 mas	131.83 mas	16.585155	-0.050568		7	7	G16.59-0.05_H2O				64.42	-10.6 (5.7)	43.1 (6.6)	4.24 (4)
	+18 21 9.10749	-14 31 47.9945	230 mas	685.88 mas	16.585334	-0.050575		8	8	G16.59-0.05_H2O				61.48	-7.2 (7.0)	35.4 (11.7)	3.30 (4)
	+18 21 9.10924	-14 31 47.9846	256.26 mas	695.78 mas	16.585340	-0.050580		9	9	G16.59-0.05_H2O				51.36	-1.8 (8.5)	55.3 (8.1)	2.70 (4)
	+18 21 9.10749	-14 31 47.9946	229.96 mas	685.76 mas	16.585334	-0.050575		10	10	G16.59-0.05_H2O				59.25			2.56 (1)
	+18 21 9.08471	-14 31 48.5602	-111.69 mas	120.16 mas	16.585152	-0.050568		11	11	G16.59-0.05_H2O				62.62			1.72(1)
	+18 21 9.08512	-14 31 48.5432	-105.56 mas	137.21 mas	16.585157	-0.050568		12	12	G16.59-0.05_H2O				64.42			1.70 (4)
	+18 21 9.08441	-14 31 48.5242	-116.31 mas	156.2 mas	16.585160	-0.050563		13	13	G16.59-0.05_H2O				66.11	-10.9 (6.0)	43.5 (8.5)	1.67 (3)
	+18 21 9.10785	-14 31 48.0068	235.32 mas	673.64 mas	16.585331	-0.050578		14	14	G16.59-0.05_H2O				60.84	-11.8 (5.4)	19.7 (6.1)	1.48 (3)
	+18 21 9.09933	-14 31 48.5691	107.55 mas	111.31 mas	16.585177	-0.050622		15	15	G16.59-0.05_H2O				61.26			1.31 (2)
	+18 21 9.0922	-14 31 48.6817	0.56 mas	-1.27 mas	16.585136	-0.050611		16	16	G16.59-0.05_H2O				60.63			1.11 (3)
	+18 21 9.08443	-14 31 48.5265	-115.99 mas	153.86 mas	16.585160	-0.050563		17	17	G16.59-0.05_H2O				66.74			0.87 (4)
	+18 21 9.08429	-14 31 48.5274	-118.02 mas	153.03 mas	16.585159	-0.050563		18	18	G16.59-0.05_H2O				65.06			0.80 (3)
	+18 21 9.08492	-14 31 48.5484	-108.63 mas	131.99 mas	16.585155	-0.050568		19	19	G16.59-0.05_H2O				61.9			0.79 (4)
	+18 21 9.08503	-14 31 48.5512	-106.92 mas	129.23 mas	16.585155	-0.050568		20	20	G16.59-0.05_H2O				66.42			0.72 (1)
	+18 21 9.09929	-14 31 48.5701	106.92 mas	110.26 mas	16.585177	-0.050622		21	21	G16.59-0.05_H2O				65.48			0.71 (4)
	+18 21 9.10236	-14 31 48.6788	152.99 mas	1.63 mas	16.585156	-0.050647		22	22	G16.59-0.05_H2O				59.58	9.3 (3.5)	11.7 (4.2)	0.64 (4)
	+18 21 9.08448	-14 31 48.5343	-115.27 mas	146.15 mas	16.585158	-0.050564		23	23	G16.59-0.05_H2O				67.89			0.57 (1)
	+18 21 9.08467	-14 31 48.5538	-112.3 mas	126.55 mas	16.585153	-0.050567		24	24	G16.59-0.05_H2O				62.53			0.51 (4)
	+18 21 9.08444	-14 31 48.5231	-115.84 mas	157.32 mas	16.585160	-0.050563		25	25	G16.59-0.05_H2O				66.74	-27.4 (5.0)	113.8 (7.6)	0.49 (2)
	+18 21 9.08506	-14 31 48.5429	-106.47 mas	137.54 mas	16.585157	-0.050567		26	26	G16.59-0.05_H2O				64.1			0.46 (1)
	+18 21 9.08432	-14 31 48.518	-117.63 mas	162.42 mas	16.585161	-0.050561		27	27	G16.59-0.05_H2O				66.32			0.45 (3)
	+18 21 9.0993	-14 31 48.571	107.06 mas	109.4 mas	16.585177	-0.050622		28	28	G16.59-0.05_H2O				65.48			0.40 (2)
	+18 21 9.08469	-14 31 48.562	-112 mas	118.35 mas	16.585151	-0.050569		29	29	G16.59-0.05_H2O				62.74			0.39 (3)
	+18 21 9.09262	-14 31 48.6682	6.92 mas	12.23 mas	16.585140	-0.050611		30	30	G16.59-0.05_H2O				60.3	4.9 (3.6)	20.4 (4.6)	0.35 (1)
	+18 21 9.0993	-14 31 48.5689	107.16 mas	111.54 mas	16.585177	-0.050621		31	31	G16.59-0.05_H2O				60.63			0.34 (4)
	+18 21 9.08486	-14 31 48.5524	-109.48 mas	128.05 mas	16.585154	-0.050568		32	32	G16.59-0.05_H2O				62.2			0.33 (1)
	+18 21 9.09255	-14 31 48.6703	5.81 mas	10.1 mas	16.585140	-0.050611		33	33	G16.59-0.05_H2O				60.84			0.25 (4)
	+18 21 9.0916	-14 31 48.6674	-8.41 mas	13.03 mas	16.585139	-0.050607		34	34	G16.59-0.05_H2O				60.84			0.21 (3)
	+18 21 9.08471	-14 31 48.5595	-111.81 mas	120.87 mas	16.585152	-0.050568		35	35	G16.59-0.05_H2O				62.32			0.21 (4)
	+18 21 9.08499	-14 31 48.5487	-107.52 mas	131.67 mas	16.585155	-0.050568		36	36	G16.59-0.05_H2O				63.46			0.18 (1)
	+18 21 9.09929	-14 31 48.5609	106.91 mas	119.47 mas	16.585179	-0.050620		37	37	G16.59-0.05_H2O				60.09			0.16(1)
	+18 21 9.10738	-14 31 48.7118	228.34 mas	-31.43 mas	16.585158	-0.050669		38	38	G16.59-0.05_H2O				58.61	12.8 (4.3)	10.4 (7.0)	0.10(1)
	+18 21 9.10979	-14 31 47.9956	264.41 mas	684.83 mas	16.585338	-0.050584		39	39	G16.59-0.05_H2O				63.04			0.10(1)
	+18 21 9.0994	-14 31 48.5674	108.53 mas	113.03 mas	16.585178	-0.050622		40	40	G16.59-0.05_H2O				60			0.10(3)

DSS colored	2MASS colored	WISE colored
SDSS color	IRAC color I1,I2,I4	GLIMPSE 360
PACS color (70-160 um)	SPIRE color (250-500 um)	NVSS (1.4GHz)
ATLASGAL 870 um	ATLASGAL 870 um + Planck	Bolocam 1.1 mm
UKIDSS K Download UKIDSS K FITS	2MASS K Download 2MASS K FITS

select MAX(h2o_data_all.ra_hms) as ra_hms,MAX(h2o_data_all.dec_dms) as dec_dms,MAX(h2o_data_all.source_name) as source_name,MAX(h2o_data_all.ra) as ra,MAX(h2o_data_all.dec) as dec,MAX(h2o_data_all.l) as l,MAX(h2o_data_all.b) as b,MAX(h2o_data_all.grp) as grp,MAX(h2o_data_all.other_name) as other_name,MAX(h2o_data_all.other_desc) as other_desc,BOOL_OR(thermal) as thermal,MAX(h2o_data_all.line) as line,MAX(h2o_data_all.vrange) as vrange,MAX(h2o_data_all.vpeak) as vpeak,MAX(h2o_data_all.peak) as peak,MAX(h2o_data_all.fwhm) as fwhm,MAX(h2o_data_all.int) as int,MAX(h2o_data_all.rms) as rms,MAX(h2o_data_all.units) as units,MAX(h2o_data_all.units_rms) as units_rms,MAX(h2o_data_all.date_txt) as date_txt,MAX(h2o_data_all.telescope_ref) as telescope_ref,MAX(h2o_data_all.telescope_conf) as telescope_conf,MAX(h2o_data_all.v_step) as v_step,MAX(h2o_data_all.beam) as beam,MAX(h2o_data_all.beam_maj) as beam_maj,MAX(h2o_data_all.beam_min) as beam_min,MAX(h2o_data_all.beam_pa) as beam_pa,MAX(h2o_data_all.ref) as ref,MAX(h2o_data_all.list_ref) as list_ref,MAX(h2o_data_all.ascii) as ascii,MAX(h2o_data_all.url) as url,MAX(h2o_data_all.image) as image,MAX(h2o_data_all.image2) as image2,MAX(h2o_data_all.image3) as image3,MAX(h2o_data_all.descr) as descr,MAX(h2o_data_all.id) as id,BOOL_OR(mjy_flag) as mjy_flag,BOOL_OR(rms_mjy_flag) as rms_mjy_flag,MAX(h2o_data_all.dist) as dist,1 as dist_parallax,MAX(h2o_data_all.date_txt) as date_txt,MAX(line_det) as line_det,MAX(type) as type,MAX(simbad_types_cat) as simbad_types_cat FROM h2o_data_all  LEFT JOIN all_objects_withmet ON h2o_data_all.grp=all_objects_withmet.group_name LEFT JOIN object_categories ON all_objects_withmet.group_name = object_categories.group_name_cat AND object_categories.tbl_cat = 'all_objects_withmet' LEFT JOIN transitions ON h2o_data_all.line=transitions."Line"  WHERE ref ilike 'SAN10' AND detected=true AND hide=false GROUP BY ref

select h2o_data_all.ra_hms,h2o_data_all.dec_dms,h2o_data_all.source_name,h2o_data_all.ra,h2o_data_all.dec,h2o_data_all.l,h2o_data_all.b,h2o_data_all.grp,h2o_data_all.other_name,h2o_data_all.other_desc,h2o_data_all.thermal,h2o_data_all.line,h2o_data_all.vrange,h2o_data_all.vpeak,h2o_data_all.peak,h2o_data_all.fwhm,h2o_data_all.int,h2o_data_all.rms,h2o_data_all.units,h2o_data_all.units_rms,h2o_data_all.date_txt,h2o_data_all.telescope_ref,h2o_data_all.telescope_conf,h2o_data_all.v_step,h2o_data_all.beam,h2o_data_all.beam_maj,h2o_data_all.beam_min,h2o_data_all.beam_pa,h2o_data_all.ref,h2o_data_all.list_ref,h2o_data_all.ascii,h2o_data_all.url,h2o_data_all.image,h2o_data_all.image2,h2o_data_all.image3,h2o_data_all.descr,h2o_data_all.id,h2o_data_all.mjy_flag,h2o_data_all.rms_mjy_flag,h2o_data_all.dist,h2o_data_all.dist_parallax,h2o_data_all.date_txt,line_det,type,simbad_types_cat FROM h2o_data_all   LEFT JOIN all_objects_withmet ON h2o_data_all.grp=all_objects_withmet.group_name LEFT JOIN object_categories ON all_objects_withmet.group_name = object_categories.group_name_cat AND object_categories.tbl_cat = 'all_objects_withmet' LEFT JOIN transitions ON h2o_data_all.line=transitions."Line"  WHERE ref ilike 'SAN10' AND detected=true AND hide=false ORDER BY detected DESC,id

Display data from paper

SAN10 - VLBI study of maser kinematics in high-mass star-forming regions. I. G16.59-0.05

Interferometry data

View as list of objects

Detection table from Sanna et al. (2010)