Neutron-deuteron scattering revisited with the EKM chiral nuclear force and the WPCD method

Abstract

We revisit the neutron-deuteron scattering using the Wave-Packet Continuum Discretization (WPCD) method with the EKM chiral nuclear force at various chiral orders. We rederive the permutation operator and solve the Faddeev-AGS equations directly, without rewriting the initial Faddeev kernel tG0 and introducing pseudo-states, thereby rendering the approach easily extendable to a relativistic framework. We find that up to the next-to-next-to-next-to-leading order (N3LO), although one can well describe the differential cross sections, one cannot resolve the long-standing Ay puzzle, consistent with previous studies. The fact that the N3LO chiral forces can well describe the NN phase shifts and the results obtained with the EKM and Idaho N3LO chiral forces agree with each other underscores the need for further investigations to resolve the Ay puzzle, e.g., considering three-body forces or relativistic effects.

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