中低马赫数下的引力坍缩:恒星形成效率与大质量天体质量分数之间的关系

IF 5.4 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2024-10-07 DOI:10.1051/0004-6361/202450409
Jorge Saavedra-Bastidas, Dominik R. G. Schleicher, Ralf S. Klessen, Sunmyon Chon, Kazuyuki Omukai, Thomas Peters, Lewis R. Prole, Bastián Reinoso, Rafeel Riaz, Paulo Solar
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引用次数: 0

摘要

通过引力坍缩形成大质量天体既与解释首个超大质量黑洞的起源有关,也与大质量恒星的形成有关。在这里,我们分析了不同研究小组在不同环境下对大质量天体形成的模拟,涉及超大质量黑洞、原始恒星以及当今大质量恒星的形成。我们在此特别关注小virial参数机制,即初始动能与引力能的低比率、中低马赫数以及反馈非常有效之前的阶段。我们使用无量纲参数比较了不同条件下的坍缩结果,特别是恒星形成效率є*、相对于恒星总质量的最大质量天体的质量分数ƒ*,以及作为总质量函数的最大质量天体的质量分数ƒtot。我们发现,在本文分析的所有模拟中,ƒtot 都随着є* 的增加而增加,不过增加的陡度取决于环境。我们发现ƒ*和є*之间的关系更为复杂,而且在很大程度上取决于模拟开始时存在的原恒星的数量。我们发现,用系统大小除以典型碰撞长度的比值来估算碰撞参数,可以大致确定碰撞是否重要。碰撞参数越高,ƒtot 和є* 之间的关系就越陡峭。我们利用斯皮尔曼系数分析了无量纲量之间的统计相关性,并通过机器学习分析进一步证实,通过є*和碰撞参数的粗略估计,可以很好地预测ƒ*。这表明,一旦知道了特定环境下的最大效率,并确定了碰撞参数的估计值,就可以很好地估计出最大质量物体的质量。
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Gravitational collapse at low to moderate Mach numbers: The relationship between star formation efficiency and the fraction of mass in the massive object
The formation of massive objects via gravitational collapse is relevant both for explaining the origin of the first supermassive black holes and in the context of massive star formation. Here, we analyze simulations of the formation of massive objects pursued by different groups and in various environments, concerning the formation of supermassive black holes, primordial stars, as well as present-day massive stars. We focus here particularly on the regime of small virial parameters, that is, low ratios of the initial kinetic to gravitational energy, low to moderate Mach numbers, and the phase before feedback is very efficient. We compare the outcomes of collapse under different conditions using dimensionless parameters, particularly the star formation efficiency є*, the fraction ƒ* of mass in the most massive object relative to the total stellar mass, and the fraction ƒtot of mass of the most massive object as a function of the total mass. We find that in all simulations analyzed here, ƒtot increases as a function of є*, although the steepness of the increase depends on the environment. The relation between ƒ* and є* is found to be more complex and also strongly depends on the number of protostars present at the beginning of the simulations. We show that a collision parameter, estimated as the ratio of the system size divided by the typical collision length, allows us to approximately characterize whether collisions are important. A high collision parameter implies a steeper increase in the relation between ƒtot and є*. We analyze the statistical correlation between the dimensionless quantities using the Spearman coefficient and further confirm via a machine learning analysis that good predictions of ƒ* can be obtained from є* together with a rough estimate of the collision parameter. This suggests that a good estimate of the mass of the most massive object can be obtained once the maximum efficiency for a given environment is known and an estimate for the collision parameter has been determined.
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来源期刊
Astronomy & Astrophysics
Astronomy & Astrophysics 地学天文-天文与天体物理
CiteScore
10.20
自引率
27.70%
发文量
2105
审稿时长
1-2 weeks
期刊介绍: Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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