Toward more robust numerical and observational comparisons

进行更稳健的数值和观察比较

• 批准号: RGPIN-2019-06829
• 负责人: Thacker, Robert
• 金额: $ 1.75万
• 依托单位: Saint Mary's University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=743986
• 关键词: Toward; more; robust; numerical; observational

This proposal lays out a program of research designed to help us further understand both the applicability and limitations of using numerical simulations of galaxy formation to help explain observational results from both a phenomenological and statistical perspective. This investigation theme is motivated by the next generation of large scale surveys that will operate in the 2020s, such as the Large Synoptic Survey Telescope and the European Euclid mission (to name but two major projects), that will provide statistical samples of galaxies of exceptional size and fidelity. The proposal is primarily focused on further understanding three key components of simulations: Firstly the variance of galaxy properties produced by chaos-like evolution in simulations, an issue that is growing in concern within the community. Secondly an examination of evolutionary and environmental issues within observationally derived correlations of properties of galaxies, such as the star formation rate (SFR) of a galaxy versus the inferred black hole accretion rate (BHAR), and thirdly an examination of whether the evolution of isolated dwarf system is sufficiently simple to allow star formation models to be directly constrained. All simulation work will be conducted using the `state-of-the-art' GIZMO code, with a limited amount of development necessary to add new computational techniques. The studies of chaos will involve resimulating galaxies multiple times under varying situations to see how the level of chaos-like evolution decomposes via two separate potential channels, namely halo, and disk evolution. The disk evolution part of the analysis will be conducted using a newly developed algorithm that provides a simple measure of the local level of mixing. A complementary investigation will examine how different models of the energy return from star formation, `feedback', produce different levels of chaos, as current investigations provide contradictory results on the addition of more complex physics. The research theme focused on understanding the SFR-BHAR correlation will first examine a suite of 300 simulated clusters to focus on environmental impacts on the activity of nuclear accretion in galaxies and then move on to a larger simulation project that precisely constrains the build-up of mass in galaxy halos to determine if that can be used as means to better understand observed correlations. The star formation model constraint project will also use a suite of simulated galaxy models to conduct a sensitivity analysis of the star formation efficiency and various feedback parameters versus the epoch of cosmic reionization. The research will be supported by an award winning outreach portfolio that will be broadened to build a collaboration with Mi'kmaq artist, Melissa Sue Labrador, who is especially interested in the cosmic evolution and relating this to indigenous ways of knowing. The PI & research group will explore with Labrador in the spirit of "Two-eyed seeing."

该提案列出了一个研究计划，旨在帮助我们进一步了解使用星系形成的数值模拟的适用性和局限性，以帮助从现象学和统计学的角度解释观测结果。这一调查主题的动机是下一代的大规模调查，将在2020年代，如大型综合巡天望远镜和欧洲欧几里得使命（仅举两个主要项目的名字），这将提供特殊的大小和保真度的星系的统计样本。 该提案主要集中在进一步理解模拟的三个关键组成部分：首先是模拟中类似混沌的演化产生的星系属性的变化，这是社区内越来越关注的问题。第二个检查的演化和环境的问题，在观测得出的相关性的星系的属性，如星星形成率（SFR）的星系与推断的黑洞吸积率（BHAR），第三个检查是否孤立的矮系统的演化是足够简单，让星星形成模型直接约束。 所有模拟工作都将使用“最先进的”GIZMO代码进行，并需要进行有限的开发，以增加新的计算技术。对混沌的研究将涉及在不同情况下多次重新模拟星系，以观察类混沌演化的水平如何通过两个独立的潜在通道（即晕和盘演化）分解。分析的磁盘演变部分将使用新开发的算法进行，该算法提供了一个简单的测量当地的混合水平。一个补充的调查将研究如何从星星的形成，“反馈”的能量返回不同的模型，产生不同程度的混乱，因为目前的调查提供矛盾的结果，增加了更复杂的物理。研究主题侧重于理解SFR-BHAR相关性，将首先检查一套300个模拟集群，重点关注环境对星系核吸积活动的影响，然后转移到一个更大的模拟项目，该项目精确地限制星系晕中质量的积累，以确定是否可以用作更好地理解观测到的相关性的手段。星星形成模型约束项目还将使用一套模拟星系模型，对星星形成效率和各种反馈参数与宇宙再电离时期进行敏感性分析。这项研究将得到一个获奖的外展组合的支持，该组合将扩大到与米克马克艺术家梅丽莎·苏·拉布拉多（Melissa Sue Labrador）建立合作，她对宇宙进化特别感兴趣，并将其与土著的认知方式联系起来。PI &研究小组将本着“两只眼睛看”的精神与拉布拉多一起探索。"