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Exact Neutron-Proton Wavefunctions Using the Phase Function Method

Nuclear Theory 2026-01-29 v2
Authors: Anil Khachi
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Abstract

Radial phase shifts (δ(r)\delta(r)), amplitude functions (A(r)A(r)), and exact wavefunctions (u(r)u(r)) for various uncoupled S, P, and D channels of neutron--proton scattering have been calculated using the Phase Function Method (PFM). In these calculations, inverse potentials obtained from the Morse function as the zeroth-order reference potential are employed. The parameters of the Morse potential were optimized using the comprehensive GRANADA partial wave analysis, consisting of 6713 experimental \textit{np} phase shift data points from 1950 to 2013, by minimizing the mean square error (MSE) as a cost function. The present work provides detailed radial dependence of δ(r)\delta(r), A(r)A(r), and u(r)u(r) up to 5~fm for laboratory energies Elab=[1,10,50,100,150,250,350]E_{\ell \text{lab}} = [1, 10, 50, 100, 150, 250, 350]~MeV. The obtained wavefunctions show excellent agreement with high-precision Nijmegen-II results, highlighting the accuracy and transparency of the PFM approach for uncoupled scattering states.

Keywords

scattering compton scattering on nucleons precision measurements in physics

Cite

@article{arxiv.2308.03824,
  title  = {Exact Neutron-Proton Wavefunctions Using the Phase Function Method},
  author = {Anil Khachi},
  journal= {arXiv preprint arXiv:2308.03824},
  year   = {2026}
}

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