The X(2239) and η(2225) as hidden-strange molecular states from interaction

Abstract

In this work, we propose a possible assignment of the newly observed X(2239), as well as the η(2225), as a molecular state from the interaction of a baryon and an antibaryon . With the help of effective Lagrangians, the interaction is described within the one-boson-exchange model with η, η', ω, φ, and σ exchanges considered. After inserting the potential kernel into the quasipotential Bethe-Salpeter equation, the bound states from the interaction can be studied by searching for the pole of the scattering amplitude. Two loosely bound states with spin parities IG(JPC)=0+(0-+) and 0-(1--) appear near the threshold almost with the same parameter. The 0-(1--) state can be assigned to the X(2239) observed at BESIII, which is very close to the threshold. The scalar meson η(2225) can be interpreted as a 0+(0-+) state from the interaction. The annihilation effect is also discussed through a coupled-channel calculation plus a phenomenological optical potential. It provides large widths to two bound states produced from the interaction. The mass of the 1- state is a little larger than the mass of the 0- state after including the annihilation effect, which is consistent with our assignment of these two states as X(2239) and η(2225), respectively. The results suggest that further investigation is expected to understand the structures near the threshold, such as X(2239), η(2225), and X(2175).