用n体模拟宇宙暗物质边界的一般框架

K. K. Rogers, H. Peiris
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引用次数: 18

摘要

我们提出了一个利用宇宙学N体模拟和Lyman-alpha森林数据获得暗物质本质鲁棒边界的一般框架。我们构建了一个流体动力学仿真模拟器,它是一个灵活、准确和计算成本低的模型,用于预测Lyman-alpha森林通量功率谱对不同暗物质模型、星系间介质(IGM)状态和原始功率谱的响应。该仿真器将“非冷”暗物质模型中产生的物质功率谱的小尺度抑制的灵活参数化与改进的IGM模型相结合。然后,我们演示了如何针对超轻轴子暗物质的情况优化模拟器,并给出了收敛性测试。并对磁通功率谱预测的准确性进行了交叉验证试验。该框架可以优化用于分析许多其他暗物质候选者,例如,热暗物质或相互作用暗物质。我们的工作表明,优化模拟器和宇宙学“有效理论”的结合,其中许多模型由一组方程描述,是一种强大的方法,可以从宇宙大尺度结构中进行稳健且计算效率高的推断。
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General framework for cosmological dark matter bounds using N -body simulations
We present a general framework for obtaining robust bounds on the nature of dark matter using cosmological $N$-body simulations and Lyman-alpha forest data. We construct an emulator of hydrodynamical simulations, which is a flexible, accurate and computationally-cheap model for predicting the response of the Lyman-alpha forest flux power spectrum to different dark matter models, the state of the intergalactic medium (IGM) and the primordial power spectrum. The emulator combines a flexible parameterization for the small-scale suppression in the matter power spectrum arising in "non-cold" dark matter models, with an improved IGM model. We then demonstrate how to optimize the emulator for the case of ultra-light axion dark matter, presenting tests of convergence. We also carry out cross-validation tests of the accuracy of flux power spectrum prediction. This framework can be optimized for the analysis of many other dark matter candidates, e.g., warm or interacting dark matter. Our work demonstrates that a combination of an optimized emulator and cosmological "effective theories," where many models are described by a single set of equations, is a powerful approach for robust and computationally-efficient inference from the cosmic large-scale structure.
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