Quantifying uncertainties in nuclear matrix elements for dark matter searches

D. Gazda, C. Forssén, R. Catena
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Abstract

In this contribution we report on quantification of theoretical uncertainties in nuclear matrix elements relevant for modeling dark matter and electro-weak interactions with nuclei. Recently we have developed a novel ab initio framework for computations of nuclear matrix elements and applied it in calculations of reaction rates for dark matter particles scattering off selected nuclear targets [1]. To evaluate the nuclear matrix elements we used nuclear wave functions computed within an ab initio many-body framework employing state-of-the-art nuclear Hamiltonians derived from chiral effective field theory. For the first time we have quantified the nuclear-physics uncertainties of the matrix elements that result from the remaining freedom in the construction of realistic nuclear interactions and their impact on physical observables. We found significant uncertainties especially for certain spin-dependent nuclear matrix elements. While our nuclear structure calculations have been performed with the no-core shell model method and applied in the context of dark matter searches, the approach can be generalized to other ab initio methods and extended to other sectors.
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量化暗物质搜索中核矩阵元素的不确定性
在这篇贡献中,我们报告了与模拟暗物质和与原子核的电弱相互作用相关的核矩阵元素的理论不确定性的量化。最近,我们开发了一种新的计算核矩阵元素的从头算框架,并将其应用于计算暗物质粒子从选定的核目标散射的反应速率[1]。为了评估核矩阵元素,我们使用了在从头计算的多体框架内计算的核波函数,采用了从手性有效场理论推导的最先进的核哈密顿量。我们第一次量化了矩阵元素的核物理不确定性,这些不确定性是由于构建现实核相互作用的剩余自由及其对物理可观测物的影响而产生的。我们发现了显著的不确定性,特别是对某些自旋相关的核矩阵元素。虽然我们的核结构计算是用无核壳模型方法进行的,并应用于暗物质搜索的背景下,但该方法可以推广到其他从头算方法并扩展到其他领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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