双中子星合并:测试高质量比弹射模型

Allen Murray
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引用次数: 0

摘要

Allen Murray目前是普渡大学西北分校的大三学生,主修物理和数学,辅修天体物理学和法语。他目前与Aaron Warren博士一起进行研究,专注于特别高质量比的双中子星合并。他们的研究旨在了解物质抛射、千新星和引力波特征如何帮助确定中子星结构和核状态方程。穆雷打算在2021年春季完成学士学位后继续攻读物理学研究生学位。他还喜欢天文观测和法式烹饪。Aaron Warren是普渡大学西北分校物理学副教授和科学跨学科研究中心主任。他于2000年在瓦萨学院(Vassar College)获得物理、数学和天文学学士学位,2006年在罗格斯大学(Rutgers University)获得物理学博士学位。他从事天体物理学和物理教育研究。他在计算天体物理学方面的早期工作是模拟恒星碰撞和球状星团中蓝离散星的产生。目前,Warren专注于具有高质量比和高磁化等特殊特征的双中子星合并的模拟,特别感兴趣的是确定这种合并产生的电磁和引力信号是否以及如何提供有关核状态方程、中子星结构和合并残余特性的见解。双中子星合并:测试高质量比的喷射模型
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Binary Neutron Star Mergers: Testing Ejecta Models for High Mass-Ratios
52 Allen Murray is currently a junior at Purdue University Northwest and is majoring in both physics and mathematics, with minors in astrophysics and French. He currently conducts research with Dr. Aaron Warren that focuses on binary neutron star mergers of particularly high mass ratio. Their research seeks to see how mass ejecta, kilonova, and gravitational wave characteristics can help determine neutron star structure and the nuclear equation of state. Murray intends to pursue a graduate degree in physics after completion of his BS in the spring of 2021. He also enjoys casual astronomical observation and French cooking. Aaron Warren is an associate professor of physics and director of the Science Interdisciplinary Research Center at Purdue University Northwest. Dr. Warren completed his AB degree at Vassar College, with majors in physics, mathematics, and astronomy, in 2000 and his PhD from Rutgers University in physics in 2006. He conducts research in both astrophysics and physics education research. His early work in computational astrophysics studied simulations of stellar collisions and the production of blue stragglers in globular clusters. Currently, Warren focuses on simulations of binary neutron star mergers having exceptional characteristics such as high mass ratios and magnetizations, with a particular interest in determining whether and how the electromagnetic and gravitational signals from such mergers may provide insights regarding the nuclear equation of state, neutron star structure, and merger remnant properties. BINARY NEUTRON STAR MERGERS: Testing Ejecta Models for High Mass-Ratios
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