Quantifying the Tension between Cosmological Models and JWST Red Candidate Massive Galaxies

IF 1.8 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Research in Astronomy and Astrophysics Pub Date : 2024-03-19 DOI:10.1088/1674-4527/ad2cd3
Jun-Chao Wang, Zhi-Qi Huang, Lu Huang, Jianqi Liu
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Abstract

We develop a Python tool to estimate the tail distribution of the number of dark matter halos beyond a mass threshold and in a given volume in a light-cone. The code is based on the extended Press–Schechter model and is computationally efficient, typically taking a few seconds on a personal laptop for a given set of cosmological parameters. The high efficiency of the code allows a quick estimation of the tension between cosmological models and the red candidate massive galaxies released by the James Webb Space Telescope, as well as scanning the theory space with the Markov Chain Monte Carlo method. As an example application, we use the tool to study the cosmological implication of the candidate galaxies presented in Labbé et al. The standard Λ cold dark matter (ΛCDM) model is well consistent with the data if the star formation efficiency can reach ∼0.3 at high redshift. For a low star formation efficiency ϵ ∼ 0.1, the ΛCDM model is disfavored at ∼2σ–3σ confidence level.
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量化宇宙学模型与 JWST 红色候选大质量星系之间的张力
我们开发了一个 Python 工具,用于估算光锥中质量阈值之外和给定体积内暗物质光环数量的尾部分布。该代码基于扩展的普雷斯-舍赫特(Press-Schechter)模型,计算效率很高,对于一组给定的宇宙学参数,在个人笔记本电脑上通常只需要几秒钟。该代码的高效率允许快速估计宇宙学模型与詹姆斯-韦伯太空望远镜(James Webb Space Telescope)发布的红色候选大质量星系之间的张力,以及用马尔可夫链蒙特卡罗方法扫描理论空间。如果恒星形成效率在高红移时能达到 ∼0.3,那么标准的Λ冷暗物质(ΛCDM)模型就能很好地与数据保持一致。当恒星形成效率ϵ ∼ 0.1 时,ΛCDM 模型在 ∼2σ-3σ 置信度下不被看好。
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来源期刊
Research in Astronomy and Astrophysics
Research in Astronomy and Astrophysics 地学天文-天文与天体物理
CiteScore
3.20
自引率
16.70%
发文量
2599
审稿时长
6.0 months
期刊介绍: Research in Astronomy and Astrophysics (RAA) is an international journal publishing original research papers and reviews across all branches of astronomy and astrophysics, with a particular interest in the following topics: -large-scale structure of universe formation and evolution of galaxies- high-energy and cataclysmic processes in astrophysics- formation and evolution of stars- astrogeodynamics- solar magnetic activity and heliogeospace environments- dynamics of celestial bodies in the solar system and artificial bodies- space observation and exploration- new astronomical techniques and methods
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