Understanding the property of η(1405/1475) in the J/ radiative decay

Abstract

In this work we make a systematic analysis of the correlated processes J/ γ η(1440)/f1(1420) with η(1440)/f1(1420) KKπ, ηππ and 3π, where the role played by the so-called "triangle singularity mechanism" (TSM) is clarified. Our results agree well with the experimental data and suggest a small fraction of f1(1420) contributions in these processes. This study confirms our conclusion in [Phys. Rev. Lett. 108, 081803 (2012)] that the dynamic feature of the TSM can be recognized by the strong narrow peak observed in the ππ invariant mass spectrum of η(1440) 3π with anomalously large isospin violations. Nevertheless, we explicitly demonstrate that the TSM can produce obvious peak position shifts for the same η(1440) or f1(1420) state in different decay channels. This is a strong evidence that the η(1405) and η(1475) are actually the same state, i.e. η(1440). We also make an analysis of the radiative decays of η(1440) γ V (V=φ, 0 or ω) which shows that such a one-state prescription seems not to have a conflict with the so-far existing experimental data. Our analysis may shed a light on the long-standing puzzling question on the nature of η(1405) and η(1475).