热苏尼亚耶夫-泽尔多维奇效应中的高红移星系外流特征

Guochao Sun, Steven R. Furlanetto, Adam Lidz
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引用次数: 0

摘要

Sunyaev Zel'dovich(SZ)效应的各向异性是对宇宙热历史的有力探测。在高红移下,由超新星(SNe)驱动的炽热星系外流会向星系际介质注入大量热能,通过反康普顿散射导致 CMB 频谱发生强烈的 y$ 型畸变。由此产生的y$$型畸变各向异性对高$z$星系的关键物理特性非常敏感,这些特性与高能SNe驱动的外流的发射有关,例如效率和恒星形成的时空聚类。我们建立了一个简单的分析框架来计算与SNe驱动的$z>6$星系外流相关的y$型扭曲各向异性。我们表明,与来自再电离气泡和引力加热的贡献相比,星系外流可能是热能注入的主要来源。我们进一步证明,LiteBIRD 等下一代 CMB 实验可以通过与罗曼-空间望远镜等对莱曼-断裂星系的巡天观测的交叉相关性,探测到高 z 值星系外流对 y 值各向异性的贡献。我们的分析和预测表明,热SZan各向异性是早期恒星形成星系中SNE反馈的一个很有前途的探测器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Signatures of high-redshift galactic outflows in the thermal Sunyaev Zel'dovich effect
Anisotropies of the Sunyaev Zel'dovich (SZ) effect serve as a powerful probe of the thermal history of the universe. At high redshift, hot galactic outflows driven by supernovae (SNe) can inject a significant amount of thermal energy into the intergalactic medium, causing a strong $y$-type distortion of the CMB spectrum through inverse Compton scattering. The resulting anisotropies of the $y$-type distortion are sensitive to key physical properties of high-$z$ galaxies pertaining to the launch of energetic SNe-driven outflows, such as the efficiency and the spatio-temporal clustering of star formation. We develop a simple analytic framework to calculate anisotropies of $y$-type distortion associated with SNe-powered outflows of galaxies at $z>6$. We show that galactic outflows are likely the dominant source of thermal energy injection, compared to contributions from reionized bubbles and gravitational heating. We further show that next-generation CMB experiments such as LiteBIRD can detect the contribution to $y$ anisotropies from high-$z$ galactic outflows through the cross-correlation with surveys of Lyman-break galaxies by e.g. the Roman Space Telescope. Our analysis and forecasts demonstrate that thermal SZ anisotropies are a promising probe of SNe feedback in early star-forming galaxies.
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