Abstract
Abstract
In the framework of the Faddeev equations in configuration space, we investigate the K(1460) meson as a resonant state of the
KK
K
¯
kaonic system. We perform calculations for the particle configurations K
0
K
+
K
− and
K
0
K
+
K
0
¯
within two models: the ABC model, in which all three particles are distinguishable, and the AAC model when two particles are identical. The models differ in their treatment of the kaon mass difference and the attractive Coulomb force between the K
+
K
− pair. We found that the Coulomb shift adds over 1 MeV to the three-body binding energy. The expected correction to the binding energy due to mass redistribution from AA to AB is found to be negligible, up to a maximum of 6% of the relative mass correction. At the same time, the symmetry of the wave function is distorted depending on the mass ratio value. We found that the repulsive KK interaction plays an essential role in the binding energy of the
KK
K
¯
system and reports the mass of 1461.8 or 1464.1 MeV for the neutral K
0(1460) and 1466.5 or 1468.8 MeV for the charged K
+(1460) resonances, respectively, depending on the parameter sets for KK and
K
K
¯
interactions.
Funder
National Science Foundation
DOD-ARO
Energy/National Nuclear Security Administration
Subject
Nuclear and High Energy Physics
Reference71 articles.
1. Scattering theory for a three-particle system;Faddeev;ZhETF,1961
Cited by
1 articles.
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