Eun Jin In, Tae-Sun Park, Young-Ho Song, Seung-Woo Hong
Published 2024-01-05Version 1
The elastic p-12C scattering at low energies is studied by using a cluster effective field theory (EFT), where the low-lying resonance states (s1/2, p3/2, d5/2) of 13N are treated as pertinent degrees of freedom. The low-energy constants of the Lagrangian are expressed in terms of the Coulomb-modified effective range parameters, which are determined to reproduce the experimental data for the differential cross-sections. The resulting theoretical predictions agree very well with the experimental data. The resulting theory is shown to give us almost identical phase shifts as obtained from the R-matrix approach. The role of the ground state of 13N below the threshold and the next-to-leading order in the EFT power counting are also discussed.
Comments: 17 pages, 6 figures
Elastic $α$-$^{12}$C scattering at low energies in cluster effective field theory
Cluster effective field theory and nuclear reactions
${}^{\ \ \ 6}_{ΛΛ} He$ in cluster effective field theory
![QR code for arXiv:2401.02622 [nucl-th]](http://oss.arxitics.com/images/favicon.svg)