Improved Halo Model Calibrations for Mixed Dark Matter Models of Ultralight Axions

arXiv - PHYS - Cosmology and Nongalactic Astrophysics Pub Date : 2024-09-17 DOI:arxiv-2409.11469

Tibor Dome, Simon May, Alex Laguë, David J. E. Marsh, Sarah Johnston, Sownak Bose, Alex Tocher, Anastasia Fialkov

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Abstract

We study the implications of relaxing the requirement for ultralight axions to account for all dark matter in the Universe by examining mixed dark matter (MDM) cosmologies with axion fractions $f \leq 0.3$ within the fuzzy dark matter (FDM) window $10^{-25}$ eV $\lesssim m \lesssim 10^{-23}$ eV. Our simulations, using a new MDM gravity solver implemented in AxiREPO, capture wave dynamics across various scales with high accuracy down to redshifts $z\approx 1$. We identify halos with Rockstar using the CDM component and find good agreement of inferred halo mass functions (HMFs) and concentration-mass relations with theoretical models across redshifts $z=1-10$. This justifies our halo finder approach a posteriori as well as the assumptions underlying the MDM halo model AxionHMcode. Using the inferred axion halo mass - cold halo mass relation $M_{\text{a}}(M_{\text{c}})$ and calibrating a generalised smoothing parameter $\alpha$ to our MDM simulations, we present a new version of AxionHMcode. The code exhibits excellent agreement with simulations on scales $k< 20 \ h$ cMpc$^{-1}$ at redshifts $z=1-3.5$ for $f\leq 0.1$ around the fiducial axion mass $m = 10^{-24.5}$ eV $ = 3.16\times 10^{-25}$ eV, with maximum deviations remaining below 10%. For axion fractions $f\leq 0.3$, the model maintains accuracy with deviations under 20% at redshifts $z\approx 1$ and scales $k< 10 \ h$ cMpc$^{-1}$, though deviations can reach up to 30% for higher redshifts when $f=0.3$. Reducing the run-time for a single evaluation of AxionHMcode to below $1$ minute, these results highlight the potential of AxionHMcode to provide a robust framework for parameter sampling across MDM cosmologies in Bayesian constraint and forecast analyses.

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超轻轴子混合暗物质模型的改进型光环模型校准

我们通过研究在模糊暗物质（FDM）窗口$10^{-25}$ eV $\lesssim m \lesssim 10^{-23}$ eV范围内轴子分数为$f \leq 0.3$的混合暗物质（MDM）宇宙学，研究了放宽对超轻轴子的要求以解释宇宙中所有暗物质的影响。我们的模拟使用了在AxiREPO中实现的一种新的MDM引力求解器，能够高精度地捕捉到各种尺度的波动力学，直至红移$z（约1$）。我们用 "摇滚之星"（Rockstar）利用CDM部分识别光环，发现推断出的光环质量函数（HMF）和浓度-质量关系与理论模型在红移$z=1-10$之间非常吻合。这证明了我们的后验光晕发现方法以及MDM光晕模型AxionHMcode的假设是正确的。利用推断出的轴晕质量-冷晕质量相关性$M_{\text{a}}(M_{\text{c}})$，并校准一个通用的平滑参数$\alpha$到我们的MDM模拟，我们提出了一个新版本的AxionHMcode。在红移$z=1-3.5$、轴子质量$m = 10^{-24.5}$ eV $ = 3.16乘以10^{-25}$eV的条件下，该代码在尺度$k< 20\ h$ cMpc$^{-1}$ 和$f\leq 0.1$周围的模拟结果显示出极好的一致性，最大偏差保持在10%以下。对于轴子分数$f\leq 0.3$，该模型在红移$z\approx 1$和尺度$k< 10 \ h$ cMpc$^{-1}$时保持了低于20%的精确度，尽管当$f=0.3$时，在更高的红移下偏差可能达到30%。这些结果使AxionHMcode的单次评估运行时间缩短到1分钟以下，突出了AxionHMcode在贝叶斯约束和预测分析中为跨MDM宇宙学的参数采样提供稳健框架的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Cosmology and Nongalactic Astrophysics

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