Cosmological simulations with gas provide a detailed description of the intergalactic medium, which makes possible predictions of neutral hydrogen absorption in the spectra of background QSOs. We present results from a high-resolution calculation of an Ω = 1 cold dark matter model. Our simulation reproduces many of the observed properties of the Lyα forest surprisingly well. The distribution of H I column densities agrees with existing data to within a factor of ~2 over most of the range from 10~(14) cm~(-2) to 10~(22) cm~(-2); i.e., from unsaturated Lyα forest lines to damped Lyα systems. The equivalent width distribution matches the observed exponential form with a characteristic width W_* ≈ 0.3 A. The distribution of b-parameters appears consistent with that derived from QSO spectra. Most of the low column density absorption arises in large, flattened structures of moderate or even relatively low overdensity, so there is no sharp distinction between the Lyα forest and the "Gunn-Peterson" absorption produced by the smooth intergalactic medium. Our results demonstrate that a Lyα forest like that observed develops naturally in a hierarchical clustering scenario with a photoionizing background. Comparison between simulations and high-resolution QSO spectra should open a new regime for testing theories of cosmic structure formation.
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机译:气体的宇宙学模拟提供了星际介质的详细描述,这使得可以预测背景QSOs光谱中的中性氢吸收。我们提出了Ω= 1冷暗物质模型的高分辨率计算结果。我们的模拟惊人地再现了Lyα森林的许多观测特性。 H I柱密度的分布在10〜(14)cm〜(-2)到10〜(22)cm〜(-2)的大多数范围内,与现有数据一致,约为2倍。即从不饱和的Lyα林系到潮湿的Lyα系统。等效宽度分布与特征宽度W_ *≈0.3 A的观察到的指数形式相匹配。b参数的分布与从QSO光谱得出的分布一致。大部分低柱密度吸收发生在中等密度甚至相对较低的过密度的大而扁平的结构中,因此Lyα森林与光滑星系间介质产生的“ Gunn-Peterson”吸收之间没有明显的区别。我们的结果表明,像Lyα那样的森林在具有光电离背景的分层聚类情况下自然发展。模拟与高分辨率QSO光谱之间的比较应该为测试宇宙结构形成理论开辟一个新机制。
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