Halo model approach for the 21-cm power spectrum at cosmic dawn

A. Schneider, S. Giri, J. Mirocha
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引用次数: 7

Abstract

Prior to the epoch of reionisation, the 21-cm signal of the cosmic dawn is dominated by the Lyman-$\alpha$ coupling and gas temperature fluctuations caused by the first sources of radiation. While early efforts to model this epoch relied on analytical techniques, the community quickly transitioned to more expensive semi-numerical models. Here, we re-assess the viability of simpler approaches that allow for rapid explorations of the vast astrophysical parameter space. We propose a new analytical method to calculate the 21-cm power spectrum based on the framework of the halo model. Both the Lyman-$\alpha$ coupling and temperature fluctuations are described by overlapping radiation flux profiles that include spectral red-shifting and source attenuation due to look-back (light-cone) effects. The 21-cm halo model is compared to the semi-numerical code 21cmFAST exhibiting generally good agreement, i.e., the power spectra differ by less than a factor of three over a large range of $k$-modes and redshifts. We show that the remaining differences between the two methods are comparable to the expected variations from modelling uncertainties associated with the abundance, bias, and accretion rates of haloes. While these current uncertainties must be reduced in the future, our work suggests that inference at acceptable accuracy will become feasible with very efficient halo models of the cosmic dawn.
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宇宙黎明21cm功率谱的光晕模型方法
在再电离时代之前,宇宙黎明的21厘米信号主要由莱曼- α耦合和由第一辐射源引起的气体温度波动所控制。虽然早期对这个时代建模的努力依赖于分析技术,但社区很快就转向了更昂贵的半数值模型。在这里,我们重新评估了更简单的方法的可行性,这些方法允许对巨大的天体物理参数空间进行快速探索。我们提出了一种新的基于光晕模型框架的21cm功率谱计算方法。Lyman-$\alpha$耦合和温度波动都是通过重叠的辐射通量剖面来描述的,其中包括光谱红移和由于回视(光锥)效应引起的源衰减。将21厘米光晕模型与半数值代码21cmFAST进行比较,结果显示出良好的一致性,即在较大的k模式和红移范围内,功率谱的差异小于三倍。我们表明,两种方法之间的剩余差异与与晕的丰度、偏差和吸积率相关的建模不确定性的预期变化相当。虽然这些目前的不确定性必须在未来减少,但我们的工作表明,通过非常有效的宇宙黎明光晕模型,在可接受的精度上的推断将是可行的。
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