Collaborative Research: SI2-SSE: Modules for Experiments in Stellar Astrophysics

合作研究：SI2-SSE：恒星天体物理实验模块

• 批准号: 1339606
• 负责人: Richard Townsend
• 金额: $ 7.59万
• 依托单位: University of Wisconsin-Madison
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-01-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1339606&HistoricalAwards=false
• 关键词: Collaborative; Research; SI2; SSE; Modules

As the most commonly observed objects, stars remain at the forefront of astrophysical research. Technical advances in detectors, computer processing power, networks and data storage have enabled new sky surveys. Many of these search for transient events at optical wavelengths, such as the Palomar Transient Factory and Pan-STARRS1 that probe ever-larger areas of the sky and ever-fainter sources, opening up the vast discovery space of "time domain astronomy". The recent Kepler and COROT space missions achieved nearly continuous monitoring of more than 100,000 stars. The stellar discoveries from these surveys include revelations about stellar evolution, rare stars, unusual explosion outcomes, and remarkably complex binary star systems. The immediate future holds tremendous promise, as both the space-based survey Gaia and the ground based Large Synoptic Survey Telescope come to fruition. This tsunami of data has created a new demand for a reliable and publicly available research and education tool in computational stellar astrophysics that will reap the full scientific benefits of these discoveries while also creating a collaborative environment where theory, computation and interpretation can come together to address critical scientific issues. This demand by the stellar community led to our release of the Modules for Experiments in Stellar Astrophysics (MESA) software project in 2011. MESA has driven, and will continue to drive with support from this award, innovation in the stellar community as well as the exoplanet, galactic, and cosmological communities. Educators have widely deployed MESA in their undergraduate and graduate stellar evolution courses because MESA is a community platform with an active support network for leading-edge scientific investigations. Stellar astrophysics research, and all the communities that rely on stellar astrophysics, will be significantly enhanced by sustaining innovative development of MESA.This award supports the Modules for Experiments in Stellar Astrophysics (MESA) software project and user community. MESA solves the 1D fully coupled structure and composition equations governing stellar evolution. It is based on an implicit finite difference scheme with adaptive mesh refinement and sophisticated timestep controls; state-of-the-art modules provide equation of state, opacity, nuclear reaction rates, element diffusion, boundary conditions, and changes to the mass of the star. MESA is an open source library that employs contemporary numerical approaches, supports shared memory parallelism based on OpenMP, and is written with present and future multi-core and multi-thread architectures in mind. MESA combines the robust, efficient, thread-safe numerical and physics modules for simulations of a wide range of stellar evolution scenarios ranging from very-low mass to massive stars. Innovations in MESA and its domain of applicability continues to grow, just recently extended to include giant planets, oscillations, and rotation. This project will sustain MESA as a key piece of software infrastructure for stellar astrophysics while building new scientific and educational networks.

作为最常见的观测对象，恒星一直处于天体物理学研究的前沿。探测器、计算机处理能力、网络和数据存储方面的技术进步使新的天空观测成为可能。其中许多在光学波长上搜索瞬态事件，例如Palomar Transient Factory和Pan-STARRS 1，它们探测更大的天空区域和更微弱的源，开辟了“时域天文学”的广阔发现空间。最近的开普勒和COROT太空任务几乎连续监测了10万多颗恒星。这些巡天发现的恒星包括恒星演化、稀有恒星、不寻常的爆炸结果和非常复杂的星星系统。不久的将来有着巨大的希望，因为空间调查盖亚和地面大型天气调查望远镜都取得了成果。这场数据海啸为计算恒星天体物理学领域的可靠和公开的研究和教育工具创造了新的需求，这些工具将从这些发现中获得全部科学利益，同时也创造了一个合作环境，理论，计算和解释可以一起解决关键的科学问题。恒星社区的这种需求导致我们在2011年发布了恒星天体物理学实验模块（梅萨）软件项目。 梅萨已经并将继续在该奖项的支持下推动恒星社区以及系外行星，银河系和宇宙学社区的创新。教育工作者在他们的本科和研究生恒星演化课程中广泛部署了梅萨，因为梅萨是一个社区平台，为前沿科学研究提供了积极的支持网络。恒星天体物理学研究，以及所有依赖于恒星天体物理学的社区，将通过持续的创新发展梅萨得到显著增强。该奖项支持恒星天体物理学实验模块（梅萨）软件项目和用户社区。 梅萨解决了控制恒星演化的一维完全耦合结构和成分方程。它是基于一个隐式有限差分格式与自适应网格细化和复杂的时间步长控制;国家的最先进的模块提供状态方程，不透明度，核反应速率，元素扩散，边界条件，和变化的质量的星星。梅萨是一个开源库，采用当代数值方法，支持基于OpenMP的共享内存并行，并考虑到当前和未来的多核和多线程架构。梅萨结合了强大，高效，线程安全的数值和物理模块，用于模拟从极低质量到大质量恒星的各种恒星演化场景。梅萨的创新及其适用领域不断增长，最近扩展到包括巨行星，振荡和旋转。 该项目将维持梅萨作为恒星天体物理学软件基础设施的关键部分，同时建立新的科学和教育网络。