基洛新星辐射流体力学模拟中的元素形成

Fabio Magistrelli, Sebastiano Bernuzzi, Albino Perego and David Radice
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摘要

了解双中子星合并(BNSM)喷出物中r过程核合成的细节是解释千新星观测和确定双中子星在重元素起源中的作用的关键。我们提出了一种自洽的、二维的、逐射线辐射流体力学演化的双中子星喷出物在线核网络(NN),其时间尺度可达数天。这是第一次演化出由动力学成分、螺旋波和盘风组成的初始数值相对论喷出物剖面,包括详细的r过程反应和核加热效应。还包括一个简单的喷流能量沉积模型。我们的模拟突出表明,在后处理中将最终核合成产率与喷出物的初始热力学剖面联系起来的常见方法会导致不准确的预测。此外,我们还发现,在核计算中忽略喷出物的辐射-流体动力演化细节,会使一些元素(包括极轻元素和第二r过程峰值元素)的最终丰度出现高达1个数量级的偏差。喷流的存在只影响极地喷出物最内层的元素生成,不会改变全局核合成结果。总之,我们的分析表明,采用在线 NN 可以提高核合成和千新星光曲线预测的可靠性。
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Element Formation in Radiation-hydrodynamics Simulations of Kilonovae
Understanding the details of r-process nucleosynthesis in binary neutron star merger (BNSM) ejecta is key to interpreting kilonova observations and identifying the role of BNSMs in the origin of heavy elements. We present a self-consistent, two-dimensional, ray-by-ray radiation-hydrodynamic evolution of BNSM ejecta with an online nuclear network (NN) up to a timescale of days. For the first time, an initial numerical relativity ejecta profile composed of the dynamical component and spiral-wave and disk winds is evolved including detailed r-process reactions and nuclear heating effects. A simple model for the jet energy deposition is also included. Our simulation highlights that the common approach of relating in postprocessing the final nucleosynthesis yields to the initial thermodynamic profile of the ejecta can lead to inaccurate predictions. Moreover, we find that neglecting the details of the radiation-hydrodynamic evolution of the ejecta in nuclear calculations can introduce deviations of up to 1 order of magnitude in the final abundances of several elements, including very light and second r-process peak elements. The presence of a jet affects element production only in the innermost part of the polar ejecta, and it does not alter the global nucleosynthesis results. Overall, our analysis shows that employing an online NN improves the reliability of nucleosynthesis and kilonova light-curve predictions.
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