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Collaborative Research: Dynamical Tides in Close Stellar Binaries and Exoplanetary Systems

合作研究：近距离恒星双星和系外行星系统中的动力潮汐

基本信息

批准号：
1909130
负责人：
Philip Arras
金额：
$ 15.66万
依托单位：
University of Virginia Main Campus
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2019
资助国家：
美国
起止时间：
2019-07-15 至 2024-06-30
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1909130&HistoricalAwards=false
关键词：
Collaborative Research Dynamical Tides Close

项目摘要

Tides are an important factor in many astrophysical settings. Tides can affect life, like tidal cycles on Earth; they can affect geology, as in the intense tidal pull of Jupiter on Io; and can even influence the evolution of stars in binary pairs. A research collaboration between Massachusetts Institute of Technology (MIT) and the University of Virginia (UVA) will analyze tidal friction in close star-star and star-planet binaries and assess the importance of nonlinear fluid dynamics on tides in these systems. Fluid dynamics is the science of how gases and liquids flow, and a nonlinear system is one in which the change in the output has a complicated (not simply linear) mathematical relationship with a change in the input. The principal investigators (PIs) have developed the basic theory and computational methods to study both weakly and strongly nonlinear tidal fluid dynamics. The proposed calculations will advance the state of the art in order to provide physics-based prescriptions for tidal friction over a range of stellar types, evolutionary stages, and degree of nonlinearity of the tide. The detailed calculations and numerical simulations will be distilled into simple prescriptions which may be useful for future investigations by astrophysicists. The MIT PI will serve as a research mentor in the study of tides to a student each year in the MIT Summer Research Program (MSRP). MSRP began as an MIT initiative to address the issue of underrepresentation of African Americans, Mexican Americans, Native Americans and Puerto Ricans in engineering and science in the US. It seeks to identify talented undergraduate students from US institutions who are underrepresented minorities and might benefit from spending a summer (nine weeks) at MIT working in a research group. The UVA PI will mentor undergraduate participants in the Virginia-North Carolina Louis Stokes Alliance for Minority Participation, which seeks to broaden participation of underrepresented minority populations in STEM disciplines.Three projects are proposed: (1) Orbital decay of hot Jupiters driven by weakly nonlinear wave-wave interactions. Previous work on solar-type stars will be expanded to include a range of stellar masses and evolutionary states. (2) Circularization and orbital decay in the strongly nonlinear limit, where wave breaking occurs for gravity waves. Again the goal is to expand previous calculations to the observed range of main sequence stars, as well as sub-giant and red giant branch stars. (3) Nonlinear wave interaction effects on the tide raised in the star and in the planet during high eccentricity planet migration. For each project, a detailed comparison of theoretical predictions to available data will be carried out. This includes close stellar binaries, the hot Jupiters and Neptunes around a variety of main sequence stars, and evolved stars with substellar companions.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

潮汐是许多天体物理环境中的一个重要因素。潮汐可以影响生命，就像地球上的潮汐周期一样;它们可以影响地质，就像木星对木卫一的强烈潮汐拉力一样;甚至可以影响双星的演化。马萨诸塞州理工学院（MIT）和弗吉尼亚大学（UVA）之间的一项研究合作将分析近距离恒星-恒星和恒星-行星双星系统中的潮汐摩擦，并评估非线性流体动力学对这些系统中潮汐的重要性。流体动力学是研究气体和液体如何流动的科学，非线性系统是输出变化与输入变化之间存在复杂（而不是简单的线性）数学关系的系统。主要研究人员（PI）已经发展了基本理论和计算方法来研究弱和强非线性潮汐流体动力学。拟议的计算将推进最先进的，以提供基于物理学的处方潮汐摩擦在一系列恒星类型，演化阶段，和潮汐的非线性程度。详细的计算和数值模拟将被提炼成简单的处方，这可能是有用的天体物理学家未来的调查。麻省理工学院PI将作为潮汐研究的研究导师，每年在麻省理工学院夏季研究计划（MSRP）中为一名学生提供研究指导。管理系统更新项目最初是麻省理工学院的一项举措，旨在解决美国工程和科学领域非洲裔美国人、墨西哥裔美国人、美洲原住民和波多黎各人代表性不足的问题。它旨在从美国机构中找出有才华的本科生，他们是代表性不足的少数民族，可能会从在麻省理工学院度过一个夏天（9周）在一个研究小组中工作中受益。UVA PI将指导弗吉尼亚州-北卡罗莱纳路易斯斯托克斯少数民族参与联盟的本科生参与者，该联盟旨在扩大STEM学科中代表性不足的少数民族的参与。提出了三个项目：（1）弱非线性波-波相互作用驱动的热超导体的轨道衰减。以前对太阳型恒星的研究将扩大到包括一系列恒星质量和演化状态。(2)强非线性极限中的圆化和轨道衰减，在那里重力波发生波破碎。我们的目标再次是将先前的计算扩展到主序星的观测范围，以及亚巨星和红巨星分支星。(3)非线性波相互作用对高偏心率行星迁移期间星星和行星内潮汐上升的影响。对于每个项目，将对理论预测与现有数据进行详细比较。这包括近距离双星、围绕各种主序星的热彗星和海王星，以及有亚恒星伴星的演化恒星。该奖项反映了NSF的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。