Manifestation of three-body forces in three-body Bethe-Salpeter and
  light-front equations

A. Stadler; A. Stadler; A.M. Shirokov; B.L.G. Bakker; C. Savkli; Ch. Hajduk; D.R. Entem; F. Gross; G. Rupp; G.C. Wick; H. Witala; J. Carbonell; J. Carbonell; J. Carbonell; J.L. Friar; K.A. Brueckner; M. Mangin-Brinet; M. Mangin-Brinet; M.S. Bhagwat; N.C.J. Schoonderwoerd; P. Maris; P. Maris; P. Maris; R.E. Cutkosky; S. Brodsky; S. Weinberg; S.-N. Yang; S.-N. Yang; S.M. Dorkin; T. Frederico; T. Lin; T. Lin; T. Nieuwenhuis; V. A. Karmanov; V.A. Karmanov; V.B. Berestetsky

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Manifestation of three-body forces in three-body Bethe-Salpeter and light-front equations

Authors: A. Stadler
A. Stadler
A.M. Shirokov
B.L.G. Bakker
C. Savkli
Ch. Hajduk
D.R. Entem
F. Gross
G. Rupp
G.C. Wick
H. Witala
J. Carbonell
J. Carbonell
J. Carbonell
J.L. Friar
K.A. Brueckner
M. Mangin-Brinet
M. Mangin-Brinet
M.S. Bhagwat
N.C.J. Schoonderwoerd
P. Maris
P. Maris
P. Maris
R.E. Cutkosky
S. Brodsky
S. Weinberg
S.-N. Yang
S.-N. Yang
S.M. Dorkin
T. Frederico
T. Lin
T. Lin
T. Nieuwenhuis
V. A. Karmanov
V.A. Karmanov
V.B. Berestetsky
Publication date: 7 November 2008
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

Bethe-Salpeter and light-front bound state equations for three scalar particles interacting by scalar exchange-bosons are solved in ladder truncation. In contrast to two-body systems, the three-body binding energies obtained in these two approaches differ significantly from each other: the ladder kernel in light-front dynamics underbinds by approximately a factor of two compared to the ladder Bethe-Salpeter equation. By taking into account three-body forces in the light-front approach, generated by two exchange-bosons in flight, we find that most of this difference disappears; for small exchange masses, the obtained binding energies coincide with each other.Comment: 24 pages, 8 figures, submitted in Few-Body System

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