Ar40上低能带电电流νe散射中的核去激发

S. Gardiner
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引用次数: 10

摘要

背景:大型氩基中微子探测器,如那些计划用于深地下中微子实验(DUNE)的探测器,有可能为核心坍缩超新星产生的低能($\sim$ 10 MeV)电子中微子提供独特的灵敏度。尽管它们对中微子能量重建很重要,但在$^{40}$ Ar上带电电流$\nu_e$吸收后的核去激发从未在超新星能量下进行过详细研究。目的:我开发了一个核去激发的模型,发生在$^{40}\mathrm{Ar}(\nu_e,e^{-})^{40}\mathrm{K}^*$反应之后。该模型适用于排他性截面的计算。方法:在允许的近似下,推导出包含微分截面的简单表达式。使用测量的$\gamma$射线衰变方案和hauser - feshach统计模型的组合来描述核去激发。所有的计算都是使用一种叫做MARLEY(氩反应低能产率模型)的新型蒙特卡罗事件发生器进行的。结果:给出了不同的总横截面和差横截面。两种去激发模式,一种只涉及$\gamma$射线,另一种包括单中子发射,在几十兆电子伏特的能量下占主导地位。结论:核去激发对液态氩中超新星$\nu_e$探测的能量分辨率有很大影响。标记涉及中子发射的事件虽然困难,但可以大大改善能量重建。给出合适的包涵截面计算,MARLEY核去激励模型可以很容易地应用于其他散射过程。
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Nuclear de-excitations in low-energy charged-current νe scattering on Ar40
Background: Large argon-based neutrino detectors, such as those planned for the Deep Underground Neutrino Experiment (DUNE), have the potential to provide unique sensitivity to low-energy ($\sim$10 MeV) electron neutrinos produced by core-collapse supernovae. Despite their importance for neutrino energy reconstruction, nuclear de-excitations following charged-current $\nu_e$ absorption on $^{40}$Ar have never been studied in detail at supernova energies. Purpose: I develop a model of nuclear de-excitations that occur following the $^{40}\mathrm{Ar}(\nu_e,e^{-})^{40}\mathrm{K}^*$ reaction. This model is applied to the calculation of exclusive cross sections. Methods: A simple expression for the inclusive differential cross section is derived under the allowed approximation. Nuclear de-excitations are described using a combination of measured $\gamma$-ray decay schemes and the Hauser-Feshbach statistical model. All calculations are carried out using a novel Monte Carlo event generator called MARLEY (Model of Argon Reaction Low Energy Yields). Results: Various total and differential cross sections are presented. Two de-excitation modes, one involving only $\gamma$-rays and the other including single neutron emission, are found to be dominant at few tens-of-MeV energies. Conclusions: Nuclear de-excitations have a strong impact on the achievable energy resolution for supernova $\nu_e$ detection in liquid argon. Tagging events involving neutron emission, though difficult, could substantially improve energy reconstruction. Given a suitable calculation of the inclusive cross section, the MARLEY nuclear de-excitation model may readily be applied to other scattering processes.
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