Spectroscopic characterization of the known O-star population in Cygnus OB2

Berlanas, S. R.; Herrero, A.; Comerón, F.; Lennon, D. J.; Pasquali, A.; Apellániz, J. Maíz; Sota, A.; Pellerin, Anne

doi:10.1051/0004-6361/202039015

Cited by 22 publications

(22 citation statements)

References 95 publications

(112 reference statements)

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“…The Cygnus region of the Galactic plane is home to a considerable amount of recent star formation, including the massive Cygnus X star-forming region, thousands of OB stars, H II regions, supernova remnants and nine OB associations (Mel'Nik & Efremov 1995;Reipurth & Schneider 2008). Since the study of Massey & Thompson (1991), the highly reddened OB star population of Cygnus OB2 has been studied by many authors, most recently by Wright, Drew & Mohr-Smith (2015) and Berlanas et al (2020). The association is home to approximately 70 O-type stars with ages between 1 and 7 Myr and a total mass of 1.65 x 10 4 M (Wright et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Revisiting the Cygnus OB associations

Quintana

Wright

2021

Monthly Notices of the Royal Astronomical Society

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OB associations play an important role in Galactic evolution, though their origins and dynamics remain poorly studied, with only a small number of systems analysed in detail. In this paper we revisit the existence and membership of the Cygnus OB associations. We find that of the historical OB associations only Cyg OB2 and OB3 stand out as real groups. We search for new OB stars using a combination of photometry, astrometry, evolutionary models and an SED fitting process, identifying 4680 probable OB stars with a reliability of >90%. From this sample we search for OB associations using a new and flexible clustering technique, identifying 6 new OB associations. Two of these are similar to the associations Cyg OB2 and OB3, though the others bear no relationship to any existing systems. We characterize the properties of the new associations, including their velocity dispersions and total stellar masses, all of which are consistent with typical values for OB associations. We search for evidence of expansion and find that all are expanding, albeit anistropically, with stronger and more significant expansion in the direction of Galactic longitude. We also identify two large-scale (160 pc and 25 km s−1) kinematic expansion patterns across the Cygnus region, each including three of our new associations, and attribute this to the effects of feedback from a previous generation of stars. This work highlights the need to revisit the existence and membership of the historical OB associations, if they are to be used to study their properties and dynamics.

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Section: Introductionmentioning

confidence: 99%

Revisiting the Cygnus OB associations

Quintana

Wright

2021

Monthly Notices of the Royal Astronomical Society

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“…We mainly based the analysis on the Si iii λ4552 line since metallic lines do not suffer from strong Stark broadening nor from nebular contamination. However, for the few cases where this line is too weak we used nebular free or weakly contaminated He i lines (He i λ4713, λ4471 and/or λ4387, see Ramírez-Agudelo et al 2013;Berlanas et al 2020). Typical uncertainties in v sin i and v macro are of the order of 10 -20%.…”

Section: Line-broadening Characterisationmentioning

confidence: 99%

The Gaia-ESO Survey: The analysis of the hot-star spectra

Blomme

Daflon

Gebran

et al. 2022

A&A

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Context. The Gaia-ESO Survey (GES) is a large public spectroscopic survey that has collected, over a period of six years, spectra of ∼ 10 5 stars. This survey provides not only the reduced spectra, but also the stellar parameters and abundances resulting from the analysis of the spectra. Aims. The GES dataflow is organised in 19 working groups. Working group 13 (WG13) is responsible for the spectral analysis of the hottest stars (O, B, and A type, with a formal cutoff of T eff > 7000 K) that were observed as part of GES. We present the procedures and techniques that have been applied to the reduced spectra in order to determine the stellar parameters and abundances of these stars. Methods. The procedure used was similar to that of other working groups in GES. A number of groups (called Nodes) each independently analyse the spectra via state-of-the-art techniques and codes. Specific for the analysis in WG13 was the large temperature range covered (T eff ≈ 7000 − 50 000 K), requiring the use of different analysis codes. Most Nodes could therefore only handle part of the data. Quality checks were applied to the results of these Nodes by comparing them to benchmark stars, and by comparing them to one another. For each star the Node values were then homogenised into a single result: the recommended parameters and abundances. Results. Eight Nodes each analysed part of the data. In total 17 693 spectra of 6462 stars were analysed, most of them in 37 open star clusters. The homogenisation led to stellar parameters for 5584 stars. Abundances were determined for a more limited number of stars. The elements studied are He, C, N, O, Ne, Mg, Al, Si, and Sc. Abundances for at least one of these elements were determined for 292 stars. Conclusions. The hot-star data analysed here, as well as the GES data in general, will be of considerable use in future studies of stellar evolution and open clusters.

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“…Later, Hanson ( 2003 ) places it at a shorter distance of 1.5 kpc, that Negueruela et al ( 2008 ) find consistent with their data. 10 More recently, Rygl et al ( 2012 ) find a similar distance of 8 Interestingly, a similar situation arose in DR2 for Cyg OB2#12, the blue hypergiant in the region (see Berlanas et al 2018 ) but it has been solved in eDR3 9 DR2 data give μ α = −2.109 ± 0.451 mas a −1 and μ δ = 0.073 ± 0.533 mas a −1 (Berlanas et al 2020 ). 10 Clark et al ( 2012 ) prefer the distance of 1.75 kpc for Cyg OB2 #12 in their analysis.…”

Section: Distancementioning

confidence: 67%

The nature of the Cygnus extreme B supergiant 2MASS J20395358+4222505

Herrero

Berlanas

Paz

et al. 2022

Monthly Notices of the Royal Astronomical Society

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2MASS J20395358+4222505 is an obscured early B supergiant near the massive OB star association Cygnus OB2. Despite its bright infrared magnitude (Ks = 5.82) it has remained largely ignored because of its dim optical magnitude (B = 16.63, V = 13.68). In a previous paper, we classified it as a highly reddened, potentially extremely luminous, early B-type supergiant. We obtained its spectrum in the U, B and R spectral bands during commissioning observations with the instrument MEGARA at the Gran Telescopio CANARIAS. It displays a particularly strong Hα emission for its spectral type, B1 Ia. The star seems to be in an intermediate phase between supergiant and hypergiant, a group that it will probably join in the near (astronomical) future. We observe a radial velocity difference between individual observations and determine the stellar parameters, obtaining Teff = 24 000 K and log gc = 2.88 ± 0.15. The rotational velocity found is large for a B supergiant, $v$ sin i = 110 ± 25 $\rm km\, s^{-1}$. The abundance pattern is consistent with solar, with a mild C underabundance (based on a single line). Assuming that J20395358+4222505 is at the distance of Cyg OB2, we derive the radius from infrared photometry, finding R = 41.2 ± 4.0 R⊙, log(L/L⊙) = 5.71 ± 0.04 and a spectroscopic mass of 46.5 ± 15.0 M⊙. The clumped mass-loss rate (clumping factor 10) is very high for the spectral type, $\dot{M}$ = 2.4 × 10−6 M⊙ a−1. The high rotational velocity and mass-loss rate place the star at the hot side of the bi-stability jump. Together with the nearly solar CNO abundance pattern, they may also point to evolution in a binary system, J20395358+4222505 being the initial secondary.

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Spectroscopic characterization of the known O-star population in Cygnus OB2

Cited by 22 publications

References 95 publications

Revisiting the Cygnus OB associations

Revisiting the Cygnus OB associations

The Gaia-ESO Survey: The analysis of the hot-star spectra

The nature of the Cygnus extreme B supergiant 2MASS J20395358+4222505

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