Productions of X(3872)/Zc(3900) and X2(4013)/Zc(4020) in Y(4220) and Y(4360) decays

Abstract

The two excited vector charmonium states Y(4220) and Y(4360) are difficult to be understood as pure cc charmonium states. Since they are located close to the mass thresholds of DD1 and D*D1, they can be viewed as DD1 and D*D1 molecules. Furthermore, recent studies indicated that the exotic states X(3872)/Zc(3900) and X2(4013)/Zc(4020) are the isoscalar/isovector DD* and isoscalar/isovector D*D* molecules, respectively. In this work, in the molecular picture, we employ the triangle diagram mechanism to study the productions of Zc(3900) and X(3872) in the pionic and radiative decays of Y(4220), as well as their heavy-quark spin symmetry (HQSS) partners, i.e., the productions of Zc(4020) and X2(4013) in the pionic and radiative decays of Y(4360). Using the effective Lagrangian approach, we obtain the ratios of the branching fractions B[Y(4360) Zc(4020)π]/B[Y(4220) Zc(3900)π]=1.2 and B[Y(4360) X2(4013) γ]/B[Y(4220) X(3872)γ]=0.5, almost independent of model parameters, which indicate that the productions of X2(4013) and Zc(4020) in the radiative and pionic decays of Y(4360) are likely to be measured in the future. The experimental studies of the predicted decay modes will help verify the molecular nature of X(3872), Zc(3900), and Y(4220). We hope the present work can stimulate experimental and further theoretical studies on these decay modes.

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