A Modified Initial Mass Function of the First Stars with Explodability Theory under Different Enrichment Scenarios

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-13 DOI:arxiv-2409.08659

Ruizheng Jiang, Gang Zhao, Haining Li, Qianfan Xing

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Abstract

The most metal-poor stars record the earliest metal enrichment triggered by Population III stars. By comparing observed abundance patterns with theoretical yields of metal-free stars, physical properties of their first star progenitors can be inferred, including zero-age main-sequence mass and explosion energy. In this work, the initial mass distribution (IMF) of first stars is obtained from the largest analysis to date of 406 very metal-poor stars with the newest LAMOST/Subaru high-resolution spectroscopic observations. However, the mass distribution fails to be consistent with the Salpeter IMF, which is also reported by previous studies. Here we modify the standard power-law function with explodability theory. The mass distribution of Population III stars could be well explained by ensuring the initial metal enrichment to originate from successful supernova explosions. Based on the modified power-law function, we suggest an extremely top-heavy or nearly flat initial mass function with a large explosion energy exponent. This indicates that supernova explodability should be considered in the earliest metal enrichment process in the Universe.

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不同富集方案下第一批恒星的修正初始质量函数与爆炸性理论

最贫乏金属的恒星记录了第三类恒星引发的最早的金属富集。通过比较观测到的丰度模式和无金属恒星的理论丰度，可以推断出其第一代恒星祖先的物理性质，包括零年龄主序质量和爆炸能量。在这项工作中，利用最新的LAMOST/Subaru高分辨率光谱观测数据，对406颗贫金属恒星进行了迄今为止最大规模的分析，从中获得了第一代恒星的初始质量分布（IMF）。然而，其质量分布与之前研究报告中的Salpeter IMF并不一致。在这里，我们用爆炸性理论修改了标准幂律函数。通过确保初始金属富集源于成功的超新星爆炸，可以很好地解释种群III恒星的质量分布。根据修正的幂律函数，我们提出了一个头重脚轻或近乎平坦的初始质量函数，并具有很大的爆炸能量指数。这表明，在宇宙最早的金属富集过程中，应该考虑超新星爆炸能力。

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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arXiv - PHYS - Astrophysics of Galaxies

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