高红移宇宙的数值边界

Thomas H Greif
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引用次数: 69

摘要

据信,第一批恒星是在大爆炸后几亿年后形成的,形成于所谓的暗物质微晕中,质量为\(\sim 10^{6}\mbox{ M}_{\odot}\)。它们的辐射第一次照亮了宇宙,超新星爆炸结束了它们短暂的生命,用第一批重元素丰富了星系际介质。在他们反馈的影响下,第一批星系聚集在质量为\(\sim10^{8}\mbox{ M}_{\odot}\)的光晕中,并孕育了第一批富含金属的恒星种群。本文综述了千禧年以来在高红移恒星和星系形成领域的理论进展,重点介绍了数值模拟。这些已经成为理解早期宇宙结构形成所带来的多尺度、多物理问题的首选方法。在这篇综述的第一部分,我将重点关注微光晕中第一批恒星的形成——特别是在坍缩后阶段,在这个阶段,磁盘碎片、原恒星演化和辐射反馈变得非常重要。我?还讨论了其他物理过程的影响,如磁场和流速度。在评论的第二部分,我总结了第一批恒星施加的各种反馈机制,然后讨论了第一批星系和在其中运作的各种物理过程。
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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The numerical frontier of the high-redshift Universe

The first stars are believed to have formed a few hundred million years after the big bang in so-called dark matter minihalos with masses \(\sim 10^{6}\mbox{ M}_{\odot}\). Their radiation lit up the Universe for the first time, and the supernova explosions that ended their brief lives enriched the intergalactic medium with the first heavy elements. Influenced by their feedback, the first galaxies assembled in halos with masses \(\sim10^{8}\mbox{ M}_{\odot}\), and hosted the first metal-enriched stellar populations. In this review, I summarize the theoretical progress made in the field of high-redshift star and galaxy formation since the turn of the millennium, with an emphasis on numerical simulations. These have become the method of choice to understand the multi-scale, multi-physics problem posed by structure formation in the early Universe. In the first part of the review, I focus on the formation of the first stars in minihalos - in particular the post-collapse phase, where disk fragmentation, protostellar evolution, and radiative feedback become important. I?also discuss the influence of additional physical processes, such as magnetic fields and streaming velocities. In the second part of the review, I summarize the various feedback mechanisms exerted by the first stars, followed by a discussion of the first galaxies and the various physical processes that operate in them.

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期刊介绍: Computational Astrophysics and Cosmology (CompAC) is now closed and no longer accepting submissions. However, we would like to assure you that Springer will maintain an archive of all articles published in CompAC, ensuring their accessibility through SpringerLink's comprehensive search functionality.
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