How Robust Are the Inferred Density and Metallicity of the Circumgalactic Medium?

Monthly Notices of the Royal Astronomical Society（2021）

Indian Inst Sci Educ & Res IISER Mohali | Indian Inst Space Sci & Technol

Cited 7|Views11

Abstract

Quantitative estimates of the basic properties of the circumgalactic medium(CGM), such as its density and metallicity, depend on the spectrum of incident UV background radiation. Models of UV background are known to have large variations, mainly because they are synthesized using poorly constrained parameters, which introduce uncertainty in the inferred properties of the CGM. Here, we quantify this uncertainty using a large set of new UV background models with physically motivated toy models of metal-enriched CGM. We find that, the inferred density and metallicity of low-density (10^-5 cm^-3) gas is uncertain by factors of 6.3 and 3.2, whereas high density (10^-3 cm^-3) gas by factors of 4 and 1.6, respectively. The variation in the shape of the UV background models is entirely responsible for such a variation in the metallicity while variation in the density arises from both normalization and shape of the UV background. Moreover, we find a harder (softer) UV background infers higher (lower) density and metallicity. We also study warm-hot gas at T= 10^5.5 K and find that metallicity is robustly estimated but the inferred density is uncertain by a factor of 3 to 5.4 for low to high-density gas. Such large uncertainties in density and metallicity may severely limit the studies of the CGM and demand better observational constraints on the input parameters used in synthesizing UV background.

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Key words

galaxy: evolution,galaxy: halo,galaxies: intergalactic medium,quasars: general

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Chat Paper

【要点】：本文研究了宇宙 circumgalactic medium (CGM) 的密度和金属丰度的推断不确定性，指出 UV 背景辐射模型的不确定性导致了 CGM 性质推断的不准确，创新点在于使用了大量新的 UV 背景模型和物理启发的金属富集 CGM 玩具模型进行量化分析。

【方法】：作者通过构建一系列基于物理启发的玩具模型的新 UV 背景模型，对 CGM 的密度和金属丰度进行了量化分析。

【实验】：实验通过对不同密度气体（10^-5 cm^-3 和 10^-3 cm^-3）以及温度为 T=10^5.5 K 的暖热气体进行分析，使用的数据集为新的 UV 背景模型，结果表明低密度气体密度和金属丰度的不确定性分别为 6.3 倍和 3.2 倍，而高密度气体分别为 4 倍和 1.6 倍；同时发现 UV 背景模型的形状变化是导致金属丰度变化的主要原因，而密度的变化则来自于 UV 背景的归一化和形状。对于暖热气体，金属丰度的估计较为稳定，但密度的不确定性在 3 到 5.4 倍之间。

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