后电离时代 Ly$α$ 森林与 21 厘米强度绘图之间交叉相关性中的再电离遗迹

Paulo Montero-Camacho, Catalina Morales-Gutiérrez, Yao Zhang, Heyang Long, Yi Mao
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摘要

源于宇宙电离的紫外线光子的骚动效应、低密度区域随后的压缩和震荡加热,以及电离锋通过时引起的浅势阱中重子的调制,共同给后电离时代星系间介质的演化带来了扰动。这些持久的波动一直持续到后电离时代,对以这个宇宙时代的示踪剂为目标的精确宇宙学研究提出了挑战。同时,这些来自再电离的遗迹也为我们提供了一个独特的机会,让我们能够深入了解支配再电离时代的天体物理学。在这项工作中,我们首次提出了对\lya森林和21厘米强度映射的交叉相关性研究,解释了后再电离时代的同质再电离的反响。我们研究了类似SKA的DESI、类似SKA的MUST和类似PUMA的MUST仪器设置在3.5 \leq z \leq 4$红移范围内实现高信噪比(SNR)的可能性。此外,我们还评估了积分时间、巡天区域和再电离情景的改变对信噪比的影响。此外,我们还预测了在不同假设条件下交叉相关在约束宇宙学参数方面的潜力:考虑或不考虑再电离遗迹,将再电离天体物理学边缘化,以及假设对再电离的完全了解。值得注意的是,我们的发现强调了未来的 PUMA $\times$ MUST-like 设置的显著能力,即在 100 平方度巡天中用最少 100 小时的积分时间,将电离效率误差限制在 $\sigma_\zeta = 3.42 美元。
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Reionization relics in the cross-correlation between the Ly$α$ forest and 21 cm intensity mapping in the post-reionization era
The tumultuous effects of ultraviolet photons that source cosmic reionization, the subsequent compression and shock-heating of low-density regions, and the modulation of baryons in shallow potential wells induced by the passage of ionization fronts, collectively introduce perturbations to the evolution of the intergalactic medium in the post-reionization era. These enduring fluctuations persist deep into the post-reionization era, casting a challenge upon precision cosmology endeavors targeting tracers in this cosmic era. Simultaneously, these relics from reionization also present a unique opportunity to glean insights into the astrophysics that govern the epoch of reionization. In this work, we propose a first study of the cross-correlation of \lya forest and 21 cm intensity mapping, accounting for the repercussions of inhomogeneous reionization in the post-reionization era. We investigate the ability of SKA $\times$ DESI-like, SKA $\times$ MUST-like, and PUMA $\times$ MUST-like instrumental setups to achieve a high signal-to-noise ratio (SNR) in the redshift range $3.5 \leq z \leq 4$. Moreover, we assess how alterations in integration time, survey area, and reionization scenarios impact the SNR. Furthermore, we forecast the cross-correlation's potential to constrain cosmological parameters under varying assumptions: considering or disregarding reionization relics, marginalizing over reionization astrophysics, and assuming perfect knowledge of reionization. Notably, our findings underscore the remarkable capability of a futuristic PUMA $\times$ MUST-like setup, with a modest 100-hour integration time over a 100 sq. deg. survey, to constrain the ionization efficiency error to $\sigma_\zeta = 3.42 $.
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Weak Lensing analysis of Abell 2390 using short exposures Optimizing Redshift Distribution Inference through Joint Self-Calibration and Clustering-Redshift Synergy Reionization relics in the cross-correlation between the Ly$α$ forest and 21 cm intensity mapping in the post-reionization era The Low-Redshift Lyman Continuum Survey: The Roles of Stellar Feedback and ISM Geometry in LyC Escape First confirmation of anisotropic bias from statistically anisotropic matter distributions
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