Communications Physics (May 2023)

Coulomb-free 1 S 0 p − p scattering length from the quasi-free p + d → p + p + n reaction and its relation to universality

  • Aurora Tumino,
  • Giuseppe G. Rapisarda,
  • Marco La Cognata,
  • Alessandro Oliva,
  • Alejandro Kievsky,
  • Carlos A. Bertulani,
  • Giuseppe D’Agata,
  • Mario Gattobigio,
  • Giovanni L. Guardo,
  • Livio Lamia,
  • Dario Lattuada,
  • Rosario G. Pizzone,
  • Stefano Romano,
  • Maria L. Sergi,
  • Roberta Spartá,
  • Michele Viviani

DOI
https://doi.org/10.1038/s42005-023-01221-0
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 9

Abstract

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Abstract The Coulomb-free 1 S 0 proton-proton (p-p) scattering length relies heavily on numerous and distinct theoretical techniques to remove the Coulomb contribution. Here, it has been determined from the half-off-the-energy-shell p-p scattering cross section measured at center-of-mass energies below 1 MeV using the quasi-free p + d → p + p + n reaction. A Bayesian data-fitting approach using the expression of the s-wave nucleon-nucleon scattering cross section returned a p-p scattering length $${a}_{pp}=-18.1{7}_{-0.58}^{+0.52}{| }_{stat}\pm 0.0{1}_{syst}$$ a p p = − 18.1 7 − 0.58 + 0.52 ∣ s t a t ± 0.0 1 s y s t fm and effective range r 0 = 2.80 ± 0.05 s t a t ± 0.001 s y s t fm. A model based on universality concepts has been developed to interpret this result. It accounts for the short-range interaction as a whole, nuclear and residual electromagnetic, according to what the s-wave phase-shift δ does in the description of low-energy nucleon-nucleon scattering data. We conclude that our parameters are representative of the short-range physics and propose to assess the charge symmetry breaking of the short-range interaction instead of just the nuclear interaction. This is consistent with the current understanding that the charge dependence of nuclear forces is due to different masses of up-down quarks and their electromagnetic interactions. This achievement suggests that these properties have a lesser than expected impact in the context of the charge symmetry breaking.