Optimization of Nuclear Mass Models Using Algorithms and Neural Networks

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-18 DOI:arxiv-2409.11930
Jin Li, Hang Yang
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Abstract

Taking into account nucleon-nucleon gravitational interaction, higher-order terms of symmetry energy, pairing interaction, and neural network corrections, a new BW4 mass model has been developed, which more accurately reflects the contributions of various terms to the binding energy. A novel hybrid algorithm and neural network correction method has been implemented to optimize the discrepancy between theoretical and experimental results, significantly improving the model's binding energy predictions (reduced to around 350 keV). At the same time, the theoretical accuracy near magic nuclei has been marginally enhanced, effectively capturing the special interaction effects around magic nuclei and showing good agreement with experimental data.
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利用算法和神经网络优化核质量模型
考虑到核子-核子引力相互作用、对称能的高阶项、配对相互作用和神经网络修正,我们建立了一个新的 BW4 质量模型,它更准确地反映了各种项对结合能的贡献。同时,魔核附近的理论精度也得到了显著提高,有效地捕捉了魔核附近的特殊相互作用效应,并与实验数据显示出良好的一致性。
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arXiv - PHYS - Nuclear Theory
arXiv - PHYS - Nuclear Theory
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