The Momentum Dependence of the $\rho-\omega$ Mixing Amplitude in a
  Hadronic Model

A. Coon; A. Coon; A. G. Williams; A.G. Williams; B.D. Serot; C. McNamee; C.J. Horowitz; C.J. Horowitz; E.M. Henley; G.A. Miller; G.A. Miller; J. Piekarewicz; J. Piekarewicz; J.A. Nolen; J.D. Walecka; J.F. Dawson; L.D. Knutson; L.D. Knutson; L.M. Barkov; P. Allendes; P. Blunden; R. Abegg; R. Abegg; R. Machleidt; R. Machleidt; S.E. Vigdor; T. Goldman

slides

The Momentum Dependence of the $\rho-\omega$ Mixing Amplitude in a Hadronic Model

Authors: A. Coon
A. Coon
A. G. Williams
A.G. Williams
B.D. Serot
C. McNamee
C.J. Horowitz
C.J. Horowitz
E.M. Henley
G.A. Miller
G.A. Miller
J. Piekarewicz
J. Piekarewicz
J.A. Nolen
J.D. Walecka
J.F. Dawson
L.D. Knutson
L.D. Knutson
L.M. Barkov
P. Allendes
P. Blunden
R. Abegg
R. Abegg
R. Machleidt
R. Machleidt
S.E. Vigdor
T. Goldman
Publication date: 4 January 1993
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We calculate the momentum dependence of the

\rho-\omega

mixing amplitude in a purely hadronic model. The basic assumption of the model is that the mixing amplitude is generated by

N{\bar{N}}

loops and thus driven entirely by the neutron-proton mass difference. The value of the amplitude at the

\omega

-meson point is expressed in terms of only the

NN\omega

and the

NN\rho

coupling constants. Using values for these couplings constrained by empirical two-nucleon data we obtain a value for the mixing amplitude in agreement with experiment. Extending these results to the spacelike region, we find a

\rho-\omega

contribution to the NN interaction that is strongly suppressed and opposite in sign relative to the conventional contribution obtained from using the constant on-shell value for the mixing amplitude.Comment: 11 pages, SCRI-12219

Similar works

Full text

Available Versions

Crossref

info:doi/10.1103%2Fphysrevc.47...

Last time updated on 02/01/2020