2017
DOI: 10.1093/mnras/stx2050
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Modelling luminous-blue-variable isolation

Abstract: Observations show that luminous blue variables (LBVs) are far more dispersed than massive O-type stars, and Smith & Tombleson suggested that these large separations are inconsistent with a single-star evolution model of LBVs. Instead, they suggested that the large distances are most consistent with binary evolution scenarios. To test these suggestions, we modelled young stellar clusters and their passive dissolution, and we find that, indeed, the standard single-star evolution model is mostly inconsistent with… Show more

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Cited by 41 publications
(56 citation statements)
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“…same pattern of being highly concentrated in clusters. For early O-type stars outside 30 Dor, the median separation is 5-6 pc and mid and late O stars somewhat larger, still in good agreement with expectations from models of cluster dispersal with age (Aghakhanloo et al 2017), and in good agreement with general expectations for O stars residing in clusters. If spectroscopically confirmed O stars are highly clustered as expected both inside and outside 30 Dor, why, then, does the BBS sample have such a large median separation of 31 pc?…”
Section: Excluding 30 Dorsupporting
confidence: 84%
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“…same pattern of being highly concentrated in clusters. For early O-type stars outside 30 Dor, the median separation is 5-6 pc and mid and late O stars somewhat larger, still in good agreement with expectations from models of cluster dispersal with age (Aghakhanloo et al 2017), and in good agreement with general expectations for O stars residing in clusters. If spectroscopically confirmed O stars are highly clustered as expected both inside and outside 30 Dor, why, then, does the BBS sample have such a large median separation of 31 pc?…”
Section: Excluding 30 Dorsupporting
confidence: 84%
“…Overall, LBV environments match quite well expectations for binary evolution, where LBVs are massive blue stragglers produced either by mass accretion from companion and possible kicks, or by rejuvenation in stellar mergers (Smith & Tombleson 2015;Smith 2016;Aghakhanloo et al 2017). If one is willing to accept the notion that close binaries are so common that they may dominate the evolutionary paths of massive stars (Sana et al 2012;de Mink et al 2014;Moe & Di Stefano 2017;Eldridge et al 2017), then this result is not so surprising.…”
Section: Summary and Discussionsupporting
confidence: 66%
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“…The crowded region is also interesting from the perspective that it is actually quite unusual for LBVs; most LBVs appear to shy away from crowded regions with clusters of O-type stars (Smith & Tombleson 2015). This is thought to be the result of binary evolution, either through kicks from a companion's SN explosion or by rejuventation 5 (Aghakhanloo et al 2017;Smith & Tombleson 2015;Smith 2016Smith , 2019. Interestingly, Smith & Tombleson (2015) also found that WC stars were more isolated than expected from single-star evolution.…”
Section: In a Crowded Regionmentioning
confidence: 99%