Near-infrared study of the stellar population of Sh2-152

Alegría, S. Ramírez; Herrero, A.; Marín-Franch, A.; Puga, E.; Najarro, F.; Pulido, J. A. Acosta; Hidalgo, Sebastián L.

doi:10.1051/0004-6361/201016427

Cited by 10 publications

(5 citation statements)

References 60 publications

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“…The distance for star ids S01 and S02 are estimated to be 3600 ± 330 and 3590 ± 250 pc, respectively. Our estimated spectral classifications and distances for S01 and S02 agree well with the published values of S152-S153 H ii regions in the literature (Ramírez Alegría et al 2011), which are likely part of the same cloud in which the S149-S148 H ii regions are associated (see Section 2 and also Tatematsu et al 1985, for details). Considering their distances, S04 and S05 seem to be foreground stars.…”

Section: Exciting Stars and Distance To The H II Regionssupporting

confidence: 89%

The Planck Cold Clump G108.37-01.06: A Site of Complex Interplay between H ii Regions, Young Clusters, and Filaments

Dutta

Mondal

Samal

et al. 2018

ApJ

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The Planck Galactic Cold Clumps (PGCCs) are the possible representations of the initial conditions and the very early stages of star formation. With an objective to understand better the star and star cluster formation, we probe the molecular cloud associated with PGCC G108.37-01.06 (hereafter, PG108.3), which can be traced in a velocity range −57 to −51 km s −1 . The IPHAS images reveal Hα emission at various locations around PG108.3, and optical spectroscopy of the bright sources in those zones of Hα emission disclose two massive ionizing sources with spectral type O8-O9V and B1V. Using the radio continuum, we estimate ionizing gas parameters and find the dynamical ages of H ii regions associated with the massive stars in the range 0.5−0.75 Myr. Based on the stellar surface density map constructed from the deep near-infrared CHFT observations, we find two prominent star clusters in PG108.3; of which, the cluster associated with H ii region S148 is moderately massive (∼ 240 M⊙). A careful inspection of JCMT 13 CO(3−2) molecular data exhibits that the massive cluster is associated with a number of filamentary structures. Several embedded young stellar objects (YSOs) are also identified in the PG108.3 along the length and junction of filaments. We find the evidence of velocity gradient along the length of the filaments. Along with kinematics of the filaments and the distribution of ionized, molecular gas and YSOs, we suggest that the cluster formation is most likely due to the longitudinal collapse of the most massive filament in PG108.3.

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Section: Exciting Stars and Distance To The H II Regionssupporting

confidence: 89%

The Planck Cold Clump G108.37-01.06: A Site of Complex Interplay between H ii Regions, Young Clusters, and Filaments

Dutta

Mondal

Samal

et al. 2018

ApJ

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“…Spectral classification for Masgomas-4 has followed a similar procedure to that in previous group works (G61.48+0.09 Marín-Franch et al 2009;Sh2-152, NGC 7538 Puga et al 2010;Ramírez Alegría et al 2011;and Masgomas-1, Ramírez Alegría et al 2012). The classification scheme is based on the detection of absorption lines and the comparison of their depth and shape with similar resolution spectra of known spectral types.…”

Section: Spectral Classificationmentioning

confidence: 99%

Masgomas-4: Physical characterization of a double-core obscured cluster with a massive and very young stellar population

Alegría

Marín-Franch

Herrero

2014

A&A

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Context. The discovery of new, obscured massive star clusters has changed our understanding of the Milky Way star-forming activity from a passive to a very active star-forming machine. The search for these obscured clusters is strongly supported by the use of all-sky, near-IR surveys. Aims. The main goal of the MASGOMAS project is to search for and study unknown, young, and massive star clusters in the Milky Way, using near-IR data. Here we try to determine the main physical parameters (distance, size, total mass, and age) of Masgomas-4, a new double-core obscured cluster. Methods. Using near-IR photometry (J, H, and K S ) we selected a total of 21 stars as OB-type star candidates. Multi-object, near-IR follow-up spectroscopy allowed us to carry out the spectral classification of the OB-type candidates. Results. Of the 21 spectroscopically observed stars, ten are classified as OB-type stars, eight as F-to early G-type dwarf stars, and three as late-type giant stars. Spectroscopically estimated distances indicate that the OB-type stars belong to the same cluster, located at a distance of 1.90 +1.28 −0.90 kpc. Our spectrophotometric data confirm a very young and massive stellar population, with a clear concentration of pre-main-sequence massive candidates (Herbig Ae/Be) around one of the cluster cores. The presence of a surrounding H II cloud and the Herbig Ae/Be candidates indicate an upper age limit of 5 Myr.

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“…To obtain the luminosity and mass functions for both fields, we followed the same procedure as described by Ramírez Alegría et al (2011). First, we projected every star following the reddening vector to the dwarf star sequence, located at our estimated distance, and defined by the magnitudes and colours of Cox (2000).…”

Section: A75 Page 8 Of 10mentioning

confidence: 99%

“…To measure OB-type and supergiant stars proper motions, we followed a similar procedure as described by Peña Ramírez et al (2011). We used the 2MASS image as the first epoch and the LIRIS image as the second epoch, with a time baseline of 10.88 years.…”

Section: Proper Motionmentioning

confidence: 99%

Discovery of a young and massive stellar cluster

Alegría

Marín-Franch

Herrero

2012

A&A

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Context. Recent near-infrared data have contributed to the discovery of new (obscured) massive stellar clusters and massive stellar populations in previously known clusters in our Galaxy. These discoveries lead us to view the Milky Way as an active star-forming machine. Aims. The main purpose of this work is to determine physically the main parameters (distance, size, total mass and age) of Masgomas-1, the first massive cluster discovered by our systematic search programme. Methods. Using near-infrared (J, H, and K S ) photometry we selected 23 OB-type and five red supergiant candidates for multi-object H-and K-spectroscopy and spectral classification. Results. Of the 28 spectroscopically observed stars, 17 were classified as OB-type, four as supergiants, one as an A-type dwarf star, and six as late-type giant stars. The presence of a supergiant population implies a massive nature of Masgomas-1, supported by our estimate of the cluster initial total mass of (1.94 ± 0.28) × 10 4 M , obtained after integrating the cluster mass function. The distance estimate of 3.53 +1.55 −1.40 kpc locates the cluster closer than the Scutum-Centaurus base but still within that Galactic arm. The presence of an O9 V star and red supergiants in the same population indicates that the cluster age is in the range of 8 to 10 Myr.

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Near-infrared study of the stellar population of Sh2-152

Cited by 10 publications

References 60 publications

The Planck Cold Clump G108.37-01.06: A Site of Complex Interplay between H ii Regions, Young Clusters, and Filaments

The Planck Cold Clump G108.37-01.06: A Site of Complex Interplay between H ii Regions, Young Clusters, and Filaments

Masgomas-4: Physical characterization of a double-core obscured cluster with a massive and very young stellar population

Discovery of a young and massive stellar cluster

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