Nucleon polarizabilities in covariant baryon chiral perturbation theory with explicit Δ degrees of freedom

M. Thürmann, E. Epelbaum, A. Gasparyan, H. Krebs
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引用次数: 6

Abstract

We compute various nucleon polarizabilities in chiral perturbation theory implementing the $\Delta$-full ($\Delta$-less) approach up to order $\epsilon^3 + q^4$ ($q^4$) in the small-scale (chiral) expansion. The calculation is carried out using the covariant formulation of $\chi$PT by utilizing the extended on-mass shell renormalization scheme. Except for the spin-independent dipole polarizabilities used to fix the values of certain low-energy constants, our results for the nucleon polarizabilities are pure predictions. We compare our calculations with available experimental data and other theoretical results. The importance of the explicit treatment of the $\Delta$ degree of freedom in the effective field theory description of the nucleon polarizabilities is analyzed. We also study the convergence of the $1/m$ expansion and analyze the efficiency of the heavy-baryon approach for the nucleon polarizabilities.
具有显式Δ自由度的协变重子手性微扰理论中的核子极化率
我们在手性微扰理论中计算了各种核子的极化率,在小尺度(手性)展开中实现了$\Delta$ -full ($\Delta$ -less)到$\epsilon^3 + q^4$ ($q^4$)阶的方法。利用扩展的质量壳重整化方案,利用$\chi$ PT的协变公式进行计算。除了用于固定某些低能常数值的自旋无关偶极子极化率外,我们对核子极化率的结果都是纯粹的预测。我们将我们的计算与现有的实验数据和其他理论结果进行了比较。分析了在核子极化率的有效场论描述中,明确处理$\Delta$自由度的重要性。我们还研究了$1/m$展开的收敛性,并分析了重重子方法计算核子极化率的效率。
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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