Two-pole structure of the h1(1415) axial-vector meson: resolving mass discrepancy

Abstract

We investigate isoscalar axial-vector mesons using a coupled-channel formalism. The kernel amplitudes are constructed from meson-exchange diagrams in the t- and u-channels, which are derived from effective Lagrangians based on hidden local symmetry. We incorporate six channels: π, ηω, KK*, ηφ, η'ω, and η'φ, and solve the off-shell coupled integral equations. We first discuss the dynamical generation of the h1(1170). The pole diagram for h1(1595) has a certain effect on the generation of h1(1170). We observe two poles at (1387-i6) MeV and (1452-i51) MeV, which exhibit a two-pole structure of the h1(1415) meson. This two-pole structure may resolve the discrepancy in the experimental data on the mass of h1(1415). The results show that the lower pole couples strongly to the KK* channel, while the higher pole couples predominantly to the ηφ channel. This provides insights into the nature of h1 mesons and explains ossible discrepancies in the mass of h1(1415).