We use the interacting instanton liquid model (IILM) as a tool to study the role played by the chiral interactions in the lowest-lying vector and axial-vector meson resonances. We find that narrow a1 and ρ meson resonances can be generated by instanton-induced chiral forces, even in the absence of confinement. In the IILM, these hadrons are found to have masses only about 30% larger than the experimental value and small width 10-50MeV. This result suggests that chiral interactions are very important in these systems and provide most of their mass. We explore the decaying patterns of the ρ meson, in the absence of confinement. We argue that, in our model where only chiral forces are switched on, this meson decays dissociating into its quark-antiquark constituents.
Cristoforetti, M., Faccioli, P., Traini, M. (2007). Instantons, Chiral Dynamics and Hadronic Resonances. PHYSICAL REVIEW D, PARTICLES, FIELDS, GRAVITATION, AND COSMOLOGY, 75(5) [10.1103/PhysRevD.75.054024].
Instantons, Chiral Dynamics and Hadronic Resonances
Faccioli, Pietro
;
2007
Abstract
We use the interacting instanton liquid model (IILM) as a tool to study the role played by the chiral interactions in the lowest-lying vector and axial-vector meson resonances. We find that narrow a1 and ρ meson resonances can be generated by instanton-induced chiral forces, even in the absence of confinement. In the IILM, these hadrons are found to have masses only about 30% larger than the experimental value and small width 10-50MeV. This result suggests that chiral interactions are very important in these systems and provide most of their mass. We explore the decaying patterns of the ρ meson, in the absence of confinement. We argue that, in our model where only chiral forces are switched on, this meson decays dissociating into its quark-antiquark constituents.
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