Saved in:
Bibliographic Details
Main Authors: Galán-Diéguez, D., Berlanas, S. R., Herrero, A., Abdul-Masih, M., Lennon, D. J., Martínez-Sebastián, C., Pérez-Toledo, F. M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.15540
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909910259728384
author Galán-Diéguez, D.
Berlanas, S. R.
Herrero, A.
Abdul-Masih, M.
Lennon, D. J.
Martínez-Sebastián, C.
Pérez-Toledo, F. M.
author_facet Galán-Diéguez, D.
Berlanas, S. R.
Herrero, A.
Abdul-Masih, M.
Lennon, D. J.
Martínez-Sebastián, C.
Pérez-Toledo, F. M.
contents Context. Cygnus OB2, in the Cygnus X complex -- one of the most active star-forming regions of the Galaxy -- hosts hundreds of O- and B-type stars at different evolutionary stages. This association provides a unique laboratory to study massive star evolution and dynamics. However, despite extensive studies, the absence of a fast-rotating group ($v\sin{i}>200\,\mathrm{km\,s^{-1}}$) among the O-type population of Cygnus OB2 challenges current models of massive star evolution. Aims. Stellar rotation strongly impacts spectral line shapes of O-type stars, and high rotation can potentially lead to misclassifications. We investigate whether some stars in Cygnus OB2, classified at low spectral resolution as B0, are actually rapidly rotating late-O types. Such cases could explain the observed lack of fast rotators in Cygnus OB2. Methods. Accounting for rotation, we reclassified the known B0 population in Cygnus OB2, using the MGB tool and both the new and pre-existing optical spectroscopy. Finally, we computed the projected rotational velocities using iacob-broad. Results. About $19\,\%$ of the initial B0 population in Cygnus OB2 are, in fact, late-O types. Only six stars in the entire dataset show $v\sin{i}>200\,\mathrm{km\,s^{-1}}$, with just one new O-type star exceeding this threshold. Conclusions. In our study of Cygnus OB2, we continue to find a notable lack of fast rotators among its O-type population. We propose a combination of three factors as the most likely explanation: (i) the young age of Cygnus OB2 may imply that fast rotators have not been produced yet due to binary interactions; (ii) fast rotators may have been dynamically ejected from the core as runaway stars; and (iii) local star formation conditions may hinder binary formation (reducing spin-up interactions) or result in slower rotational velocities at birth.
format Preprint
id arxiv_https___arxiv_org_abs_2510_15540
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The lack of fast rotators in Cyg OB2. I. Insights from spectral reclassification of its B0 population
Galán-Diéguez, D.
Berlanas, S. R.
Herrero, A.
Abdul-Masih, M.
Lennon, D. J.
Martínez-Sebastián, C.
Pérez-Toledo, F. M.
Solar and Stellar Astrophysics
Context. Cygnus OB2, in the Cygnus X complex -- one of the most active star-forming regions of the Galaxy -- hosts hundreds of O- and B-type stars at different evolutionary stages. This association provides a unique laboratory to study massive star evolution and dynamics. However, despite extensive studies, the absence of a fast-rotating group ($v\sin{i}>200\,\mathrm{km\,s^{-1}}$) among the O-type population of Cygnus OB2 challenges current models of massive star evolution. Aims. Stellar rotation strongly impacts spectral line shapes of O-type stars, and high rotation can potentially lead to misclassifications. We investigate whether some stars in Cygnus OB2, classified at low spectral resolution as B0, are actually rapidly rotating late-O types. Such cases could explain the observed lack of fast rotators in Cygnus OB2. Methods. Accounting for rotation, we reclassified the known B0 population in Cygnus OB2, using the MGB tool and both the new and pre-existing optical spectroscopy. Finally, we computed the projected rotational velocities using iacob-broad. Results. About $19\,\%$ of the initial B0 population in Cygnus OB2 are, in fact, late-O types. Only six stars in the entire dataset show $v\sin{i}>200\,\mathrm{km\,s^{-1}}$, with just one new O-type star exceeding this threshold. Conclusions. In our study of Cygnus OB2, we continue to find a notable lack of fast rotators among its O-type population. We propose a combination of three factors as the most likely explanation: (i) the young age of Cygnus OB2 may imply that fast rotators have not been produced yet due to binary interactions; (ii) fast rotators may have been dynamically ejected from the core as runaway stars; and (iii) local star formation conditions may hinder binary formation (reducing spin-up interactions) or result in slower rotational velocities at birth.
title The lack of fast rotators in Cyg OB2. I. Insights from spectral reclassification of its B0 population
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2510.15540