Confirming the molecular nature of the Zb(10610) and the Zb(10650)

Abstract

The decays of the Zb(10610) and the Zb(10650) to (nS)π, hb(mP)π and bJ(mP)γ (n=1,2,3, m=1,2 and J=0,1,2) are investigated within a nonrelativistic effective field theory. It is argued that, while the decays to (nS) π suffer from potentially large higher order corrections, the P-wave transitions of the Zb states offer the best possibility to confirm the nature of the Zb states as molecular states and to further study their properties. We give nontrivial and parameter-free predictions for the ratios of various partial widths for final states with hb(mP)π and bJ(mP)γ. In addition, the branching fractions for the neutral Zb-states to bJγ are predicted to be of order 10-4--10-3. This provides a fine test of the molecular nature in future high-luminosity experiments.