Theoretical support for the π(1300) and the recently claimed f0(1790) as molecular resonances

Abstract

A study of three-pseudoscalar π K K and π π η coupled system is made by solving the Faddeev equations within an approach based on unitary chiral dynamics. A resonance with total isospin one and spin-parity Jπ = 0- is found with mass 1400 MeV when the K K system gets reorganized as the f0(980). This resonance is identified with the π (1300) listed by the Particle Data Group. Further, the two-body amplitude which describes the interaction between a π and the f0(980) is extracted from the study of the π K K and ππη system and is then employed to study the f0(980)π π system. As a result, a scalar resonance is found near 1790 MeV which drives the two f0 (980)π systems to resonate as the π (1300) while the invariant mass of the two pions falls in the mass region of the scalar σ (600). These findings support the existence of a new f0 resonance near 1790 MeV, as found by the BES and Crystal Barrel collaborations. Our results show that this f0(1790) is definitely distinct to f0(1710), the latter of which seems to possess a glueball structure dominantly.