Probing exotic JPC resonances from deeply bound charmoniumlike molecules: Insights for identifying exotic hadrons
Abstract
We investigate the resonance phenomenon in deeply bound charmoniumlike states. By interpreting the Y(4220), Y(4360), and (4415) states as deeply S-wave bound D D1, D* D1, and D* D2* molecules, respectively, we robustly predict the existence of 4 S-wave deeply bound C-parity partner states and 13 P-wave charmoniumlike molecular resonances. These states, formed by exchanging the light mesons and pinpointed through the complex scaling method, include 3 S-wave bound states with exotic quantum numbers I(JPC)= 0(1-+) and 5 P-wave resonances with exotic 0(0-+) and 0(2+-). We expect future experiments to search for such exotic molecular resonances, which will not only enrich the ongoing construction of ``Particle Zoo 2.0" but also help to scrutinize the hadronic molecular assignments of the Y-family particles including the Y(4220), Y(4360), and (4415) states.
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