Line Shapes of the Z(4430)

Abstract

The Belle Collaboration recently discovered the first manifestly exotic meson: Z+(4430), which decays into psi' pi+ and therefore has quark content c c-bar u d-bar. The proximity of its mass to the D1 D-bar* threshold has motivated the interpretation of the Z+ as a charm meson molecule whose constituents are an S-wave superposition of D1+ D-bar*0 and D*+ D-bar10. If this interpretation is correct, the small ratio of the binding energy of the Z+ to the width Gamma1 of its constituent D1 can be exploited to predict properties of its line shapes. Its full width at half maximum in the channel psi' pi+ should be approximately sqrt3 Gamma1 = 35 MeV, which is consistent with the measured width of the Z+. The Z+ should also decay into D* D-bar* pi through decay of its constituent D1. The peak in the line shape for D* D-bar* pi should be at a higher energy than the peak in the line shape for psi' pi+ by about Gamma1/sqrt12 = 6 MeV. The line shape in D* D-bar* pi should also be broader and asymmetric, with a shoulder on the high energy side that can be attributed to a threshold enhancement in the production of D1 D-bar*.