Zc(4430), Zc(4200), Z1(4050), and Z2(4250) as triangle singularities

Abstract

Zc(4430) discovered in B0(2S)K-π+, Zc(4200) found in B0 J/ K-π+, and Z1(4050) and Z2(4250) observed in B0c1K-π+ are candidates of charged charmonium-like states. All surviving theoretical models interpreted these candidates as four-quark states, until we recently identified a compelling alternative. We discuss that kinematical singularities in triangle loop diagrams induce a resonance-like behavior that can consistently explain the properties (such as spin-parity, mass, width, and Argand plot) of Zc(4430), Zc(4200), Z1(4050) and Z2(4250) from experiments. In terms of the triangle singularities, we can also naturally understand interesting experimental findings such as the appearance (absence) of Zc(4200)(Zc(4430))-like contribution in b0 J/ pπ-, and the highly asymmetric shape of the spectrum bump for Z1(4050); the other theoretical models have not successfully addressed these points. Although Pakhlov et al. proposed another triangle diagram to generate a Zc(4430)-like bump, we argue that this scenario is very unlikely.