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Few- and many-nucleon systems with semilocal coordinate-space regularized chiral nucleon-nucleon forces

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arxiv 1802.08584 v1 pith:55T2AUIM submitted 2018-02-23 nucl-th

Few- and many-nucleon systems with semilocal coordinate-space regularized chiral nucleon-nucleon forces

classification nucl-th
keywords chiralexpansionapproachcoordinate-spaceestimatenucleon-nucleonpotentialsregularized
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We employ a variety of ab initio methods including Faddeev-Yakubovsky equations, No-Core Configuration Interaction Approach, Coupled-Cluster Theory and In-Medium Similarity Renormalization Group to perform a comprehensive analysis of the nucleon-deuteron elastic and breakup reactions and selected properties of light and medium-mass nuclei up to 48Ca using the recently constructed semilocal coordinate-space regularized chiral nucleon-nucleon potentials. We compare the results with those based on selected phenomenological and chiral EFT two-nucleon potentials, discuss the convergence pattern of the chiral expansion and estimate the achievable theoretical accuracy at various chiral orders using the novel approach to quantify truncation errors of the chiral expansion without relying on cutoff variation. We also address the robustness of this method and explore alternative ways to estimate the theoretical uncertainty from the truncation of the chiral expansion.

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  1. Perturbative calculations of light nuclei up to N$^3$LO in chiral effective field theory

    nucl-th 2026-04 unverdicted novelty 5.0

    Perturbative N3LO calculations in chiral EFT with RG-guided power counting yield robust predictions for light nuclei energies when calibrated on the tritium binding energy.