Extrapolation of scattering data to the negative-energy region. Application to the $p-^{16}$O system

TL;DR

This paper examines methods for analytically continuing scattering data to negative energies to determine bound state properties, highlighting limitations of the Δ method and applying it to the p-16O system relevant for nuclear astrophysics.

Contribution

It critically analyzes the Δ method's mathematical correctness and demonstrates its practical applicability to the p-16O system for extracting ANCs of specific states.

Findings

The Δ method is not strictly an analytic continuation but can be useful for large charges.

Both the Δ method and the standard effective range function continuation are applied to p-16O.

ANCs for the 17F ground and excited states are successfully determined.

Abstract

The problem of analytic continuation of the scattering data to the negative-energy region to obtain information on asymptotic normalization coefficients (ANCs) of bound states is discussed. It is shown that a recently suggested $\Delta$ method [O.L.Ram\'{\i}rez Su\'arez and J.-M. Sparenberg, Phys. Rev. C {\bf 96}, 034601 (2017)] is not strictly correct in the mathematical sense since it is not an analytic continuation of a partial-wave scattering amplitude to the region of negative energies. However, it can be used for practical purposes for sufficiently large charges and masses of colliding particles. Both the $\Delta$ method and the standard method of continuing of the effective range function are applied to the $p-^{16}$O system which is of interest for nuclear astrophysics. The ANCs for the ground $5/2^+$ and excited $1/2^+$ states of $^{17}$F are determined.