Effects of closely spaced thresholds on line shapes with near-threshold enhancement

Abstract

Hidden-charm pentaquarks were first experimentally detected by LHCb in 2019, one of which is the exotic Pcc(4312)+ state. The nature of this state remains uncertain which may be attributed to the proximity of this observed enhancement to the meson-baryon thresholds. In this study, we introduce a coupled-channel approach using three-channel separable potential model to account for near-threshold effects on the observed signal. In particular, we assign c+D0 and c++D- as higher-mass channels for Pc c(4312)+ state. Moreover, this allows us to propose four pole configurations, where either a bound state or virtual state pole were placed near the higher-mass thresholds. Using this scheme, we study the near-threshold effects on the transition of different pole configurations across the unphysical Riemann sheets and examine their effects on the amplitude line shape. We found out that Pc c(4312)+ state may be interpreted as a virtual state below the c+D0 which is consistent with our initial modeling assumptions. Our result also conforms with the previous analysis done by Joint Physics Analysis Center (JPAC) Fernandez-Ramirez:2019koa, which leans toward similar interpretation. This may indicate that a model-dependent framework employing a relatively simple model, such as a separable potential, can somehow complement with some of the widely used parameterizations.