Runaway stars masquerading as star formation in galactic outskirts

Eric P Andersson, F. Renaud, O. Agertz
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引用次数: 4

Abstract

In the outskirts of nearby spiral galaxies, star formation is observed in extremely low gas surface densities. Star formation in these regions, where the interstellar medium is dominated by diffuse atomic hydrogen, is difficult to explain with classic star formation theories. In this work, we introduce runaway stars as an explanation to this observation. Runaway stars, produced by collisional dynamics in young stellar clusters, can travel kilo-parsecs during their main sequence life time. Using galactic-scale hydrodynamic simulations including a treatment of individual stars, we demonstrate that this mechanism enables the ejection of young massive stars into environments where the gas is not dense enough to trigger star formation. This results in the appearance of star formation in regions where it ought to be impossible. We conclude that runaway stars are a contributing, if not dominant, factor to the observations of star formation in the outskirts of spiral galaxies.
在银河系外围伪装成恒星形成的逃逸恒星
在附近螺旋星系的外围,恒星形成是在极低的气体表面密度下观察到的。在这些区域中,星际介质主要由扩散的氢原子组成,恒星形成很难用经典的恒星形成理论来解释。在这项工作中,我们引入逃逸恒星作为对这一观察的解释。逃逸恒星是由年轻星团的碰撞动力学产生的,在它们的主序生命周期内可以运行千秒差距。利用银河系尺度的流体动力学模拟,包括对单个恒星的处理,我们证明了这种机制能够将年轻的大质量恒星喷射到气体密度不足以触发恒星形成的环境中。这就导致在本不可能形成恒星的区域出现了恒星。我们的结论是,逃逸恒星即使不是主导因素,也是对螺旋星系外围恒星形成观测的一个贡献因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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