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Ab initio lattice study of neutron-alpha scattering with chiral forces at N3LO

Published 11 Jul 2025 in nucl-th, hep-lat, and nucl-ex | (2507.08495v1)

Abstract: We present the first ab initio lattice calculation of neutron-alpha ($n$-$\alpha$) scattering using nuclear lattice effective field theory (NLEFT) with chiral interactions at next-to-next-to-next-to-leading order (N3LO). Building on the high-fidelity chiral Hamiltonian introduced in Ref. [1], we compute scattering phase shifts in the $S$- and $P$-wave channels using the L\"uscher finite-volume method. Our results demonstrate excellent agreement with empirical $R$-matrix phase shifts in the $2S_{1/2}$ and $2P_{3/2}$ channels, while revealing persistent discrepancies in the $2P_{1/2}$ channel for neutron energies above 5 MeV. To systematically investigate these discrepancies, we construct and analyze a simplified neutron-alpha toy model, demonstrating that these discrepancies are not due to the use of the L\"uscher finite-volume method. Additionally, we revisit our three-nucleon (3N) force fitting procedure, explicitly incorporating neutron-alpha scattering data through comprehensive Markov Chain Monte Carlo (MCMC) sampling. This analysis confirms the stability of nuclear binding-energy predictions and highlights the need for further refinements in the lattice N3LO three-nucleon forces to fully describe neutron-alpha scattering in the challenging ${}2P_{1/2}$ channel.

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