双中子星并合的物质抛射和千新星发射

A. Perego
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引用次数: 0

摘要

首次探测到来自双中子星并合(GW170817)的gww标志着多信使天文学时代的开始。在GW探测几个小时后,观测到与千新星/宏新星发射相容的相关电磁对应体,显著地证实了我们关于物质抛射和在此类事件中发生的核合成的基本图像。同时,它首次证明了多信使分析在利用二元紧缩合并作为基础物理实验室方面的力量。在这篇文章中,我们将介绍kilonova/ macroova模型在不同弹射机制方面的现状,以及相关的r-过程核合成。我们将展示各种喷射物(在微物理性质和空间分布方面)对光曲线的影响,并特别应用于GW170817的情况。该模型为GW信号提供了补充信息,对于设置多信使约束至关重要,例如对于核物质的状态方程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Matter ejection and kilonova emission from binary neutron star mergers
The first detection of GWs from a binary neutron star merger (GW170817) marked the beginning of the multimessenger astronomy era. A few hours after the GW detection, the observation of an associated electromagnetic counterpart compatible with a kilonova/macronova emission remarkably confirmed our basic picture concerning the ejection of matter and the nucleosynthesis occurring in such a kind of events. At the same time, it gave a first demonstration of the power of a multimessenger analysis in exploiting binary compact mergers as laboratory of fundamental physics. In this contribution, we will present the status of kilonova/macronova modeling in terms of the different ejection mechanisms, and of the associated r-process nucleosynthesis. We will show the impact of the variety of ejecta (both in terms of microphysical properties and spatial distributions) on the light curves, with a particular application to the case of GW170817. This modelling provides complementary information to the GW signal and is crucial to set multimessenger constraints, for example for the equation of state of nuclear matter.
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