利用手性二核子和三核子力对 $^3$He$(α,γ)^7$Be 天体 S 因子的 Ab initio 计算

M. C. Atkinson, K. Kravvaris, S. Quaglioni, P. Navrátil
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引用次数: 0

摘要

$^3$He$(α,γ)^7$Be辐射俘获反应在恒星元素的生成和太阳中微子的产生中起着关键作用,对它的观测是研究我们太阳特性的主要工具之一。由于反应物之间存在强大的库仑反作用力,在太阳能量下很难对这一聚变截面进行精确的实验测量,因此理论界有责任提供一种稳健的方法,从实验数据可用的区域向下推断所需的天体物理机制。我们首次提出了明确包含三核力的$^3$He$(\alpha,\gamma)^7$Be 的微观计算。我们对天体物理$S$因子的预测与实验数据基本吻合。我们在计算中进一步纳入了实验边界态和散射信息,以获得更定量的描述。这一过程揭示了我们目前的模型在模型空间的$1/2^+$通道中缺乏足够的斥力来同时再现弹性散射数据。这一不足表明,$^3$He$(α, γ)^7$Be探测了目前还没有得到很好约束的核力的各个方面。
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Ab initio calculation of the $^3$He$(α,γ)^7$Be astrophysical S factor with chiral two- and three-nucleon forces
The $^3$He$(\alpha,\gamma)^7$Be radiative capture reaction plays a key role in the creation of elements in stars as well as in the production of solar neutrinos, the observation of which is one of the main tools to study the properties of our sun. Since accurate experimental measurements of this fusion cross section at solar energies are difficult due to the strong Coulomb repulsion between the reactants, the onus falls on theory to provide a robust means for extrapolating from the region where experimental data is available down to the desired astrophysical regime. We present the first microscopic calculations of $^3$He$(\alpha,\gamma)^7$Be with explicit inclusion of three-nucleon forces. Our prediction of the astrophysical $S$ factor qualitatively agrees with experimental data. We further incorporate experimental bound-state and scattering information in our calculation to arrive at a more quantitative description. This process reveals that our current model lacks sufficient repulsion in the $1/2^+$ channel of our model space to simultaneously reproduce elastic-scattering data. This deficit suggests that $^3$He$(\alpha,\gamma)^7$Be probes aspects of the nuclear force that are not currently well-constrained.
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