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ROD12 - Observational Study of the Continuum and Water Maser Emission in the IRAS 19217+1651 Region

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Short title: Rodri�guez-Esnard et al. (2012)
Authors: Rodri�guez-Esnard, T.Trinidad, M. A.Migenes, V.
Journal: The Astrophysical Journal, Volume 761, Issue 2, article id. 158, 9 pp. (2012).
Bibcode:

Target type: High_mass_SFR
Transitions: H2O_22

Abstract
We report interferometric observations of the high-mass star-forming region IRAS 19217+1651. We observed the radio continuum (1.3 cm and 3.6 cm) and water maser emission using the Very Large Array (VLA-EVLA) in transition mode (configuration A). Two radio continuum sources were detected at both wavelengths, I19217-A and I19217-B. In addition, 17 maser spots were observed distributed mainly in two groups, M1 and M2, and one isolated maser. This latter could be indicating the relative position of another continuum source which we did not detect. The results indicate that I19217-A appears to be consistent with an ultracompact H II region associated with a zero-age main-sequence B0-type star. Furthermore, the 1.3 cm continuum emission of this source suggests a cometary morphology. In addition, I19217-B appears to be an H II region consisting of at least two stars, which may be contributing to its complex structure. It was also found that the H₂O masers of the group M1 are apparently associated with the continuum source I19217-A. These are tracing motions which are not gravitationally bound according to their spatial distribution and kinematics. They also seem to be describing outflows in the direction of the elongated cometary region. On the other hand, the second maser group, M2, could be tracing the base of a jet. Finally, infrared data from Spitzer, Midcourse Space Experiment, and IRIS show that IRAS 19217+1651 is embedded inside a large open bubble, like a broken ring, which possibly has affected the morphology of the cometary H II region observed at 1.3 cm.

Abstract

We report interferometric observations of the high-mass star-forming region IRAS 19217+1651. We observed the radio continuum (1.3 cm and 3.6 cm) and water maser emission using the Very Large Array (VLA-EVLA) in transition mode (configuration A). Two radio continuum sources were detected at both wavelengths, I19217-A and I19217-B. In addition, 17 maser spots were observed distributed mainly in two groups, M1 and M2, and one isolated maser. This latter could be indicating the relative position of another continuum source which we did not detect. The results indicate that I19217-A appears to be consistent with an ultracompact H II region associated with a zero-age main-sequence B0-type star. Furthermore, the 1.3 cm continuum emission of this source suggests a cometary morphology. In addition, I19217-B appears to be an H II region consisting of at least two stars, which may be contributing to its complex structure. It was also found that the H₂O masers of the group M1 are apparently associated with the continuum source I19217-A. These are tracing motions which are not gravitationally bound according to their spatial distribution and kinematics. They also seem to be describing outflows in the direction of the elongated cometary region. On the other hand, the second maser group, M2, could be tracing the base of a jet. Finally, infrared data from Spitzer, Midcourse Space Experiment, and IRIS show that IRAS 19217+1651 is embedded inside a large open bubble, like a broken ring, which possibly has affected the morphology of the cometary H II region observed at 1.3 cm.

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ID	Obs. RA	Obs. Dec	RA offset	Dec offset	l	b	Group id	#	Source name	Image	Descr.	Line	V_peak	F_peak	Telescope	Configuration	RMS	Beam	Detection	Class	Dist. (parallax)	Date
	(J2000)	(J2000)	(mas)	(mas)	(deg.)	(deg.)						H₂O	(km/s)	(Jy)			(mJy/beam)	(arcsec)	Yes/No		(kpc)
1	+19 23 58	+16 57 41			51.676854	0.722162	G51.677+0.719		IRAS 19217+1651	Image	Descr	22 GHz;	-3.8 .. 28.4	0.01 .. 7.44	NRAOVLA	A	5.400	0.22 x 0.2	+H₂O +CH₃OH I +CH₃OH II +OH	SFR		2007 June 27
	+19 23 58.6878	+16 57 41.648	10315.8 mas	647.6 mas	51.678309	0.719832		1	IRAS 19217+1651				2.8	0.09
	+19 23 58.7924	+16 57 41.358	11884.8 mas	357.6 mas	51.678435	0.719426		2	IRAS 19217+1651				7.4	0.05
	+19 23 58.8023	+16 57 41.383	12033.3 mas	382.6 mas	51.678460	0.719395		3	IRAS 19217+1651				23.2	0.01
	+19 23 58.8024	+16 57 41.388	12034.8 mas	387.6 mas	51.678461	0.719395		4	IRAS 19217+1651				27.8	0.02
	+19 23 58.8031	+16 57 41.401	12045.3 mas	400.6 mas	51.678466	0.719394		5	IRAS 19217+1651				-3.8	0.01
	+19 23 58.8037	+16 57 41.435	12054.3 mas	434.6 mas	51.678475	0.719397		6	IRAS 19217+1651				12	0.09
	+19 23 58.8052	+16 57 41.475	12076.8 mas	474.6 mas	51.678488	0.719397		7	IRAS 19217+1651				9.3	0.18
	+19 23 58.8056	+16 57 41.016	12082.8 mas	15.6 mas	51.678376	0.719335		8	IRAS 19217+1651				1.4	0.25
	+19 23 58.8058	+16 57 41.031	12085.8 mas	30.6 mas	51.678380	0.719336		9	IRAS 19217+1651				16.6	0.03
	+19 23 58.808	+16 57 41.006	12118.8 mas	5.6 mas	51.678378	0.719325		10	IRAS 19217+1651				10	7.44
	+19 23 58.8088	+16 57 41.007	12130.8 mas	6.6 mas	51.678380	0.719323		11	IRAS 19217+1651				12.6	2.4
	+19 23 58.8085	+16 57 41.017	12126.3 mas	16.6 mas	51.678382	0.719325		12	IRAS 19217+1651				28.4	0.02
	+19 23 58.8173	+16 57 41.017	12258.3 mas	16.6 mas	51.678398	0.719294		13	IRAS 19217+1651				6.7	0.31
	+19 23 58.8173	+16 57 41.071	12258.3 mas	70.6 mas	51.678412	0.719301		14	IRAS 19217+1651				10.7	0.08
	+19 23 58.8198	+16 57 40.977	12295.8 mas	-23.4 mas	51.678393	0.719280		15	IRAS 19217+1651				8.7	0.28
	+19 23 58.8235	+16 57 41.226	12351.3 mas	225.6 mas	51.678461	0.719300		16	IRAS 19217+1651				26.5	0.86
	+19 23 58.8247	+16 57 41.218	12369.3 mas	217.6 mas	51.678461	0.719294		17	IRAS 19217+1651				-3.2	0.07

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 'ROD12' 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 'ROD12' AND detected=true AND hide=false ORDER BY detected DESC,id

Display data from paper

ROD12 - Observational Study of the Continuum and Water Maser Emission in the IRAS 19217+1651 Region

Interferometry data

View as list of objects

Detection table from Rodri�guez-Esnard et al. (2012)