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Trinucleon Bound-State Properties from an Exact Solution of the Faddeev Equations with Realistic Nuclear Forces

Authors
  • Harper, E.P.
  • Kim, Y.E.
  • Tubis, A.
Publication Date
Jun 05, 1972
Identifiers
DOI: 10.1103/PhysRevLett.28.1533
OAI: oai:inspirehep.net:80110
Source
INSPIRE-HEP
License
Unknown
External links

Abstract

The trinucleon bound-state energy, wave function, and charge form factor are calculated from a direct solution of the complete set of Faddeev equations. The nucleon-nucleon interaction (effective in the S01 and S13−D13 states) is given by the Reid soft-core potential. We find EB=6.7 MeV, P(S)=89.7%, P(S′)=1.7%, and P(D)=8.6%. |FChHe3(Q2)| (calculated) is similar to the approximate result of Tjon, Gibson, and O'Connell, and has a minimum at Q2=15.5 fm−2.

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