D wave bottomonia production from Zb() decay

Abstract

In the present work, we investigate the dipion transitions between (5S) and J(1D) with J=1, 2, 3. Our analysis indicates that the dominant sources of the anomalously large widths of (5S) J(1D) π+ π- should be Zb(), i.e., the dipion transitions occur via the cascade decays (5S) Zb() π J(1D) π+ π-. With the assumption that all the short ranged dynamics could be absorbed in a single cutoff with a model parameter α, the present estimations indicate that in a reasonable parameter range the measured branching ratios of (5S) J(1D) π+ π- can be reproduced in magnitude, which further proves that the decays via Zb() dominate the dipion transitions of (5S) to J(1D). Moreover, we also predict the ratios of the branching fractions of Zb() J(1D) π, which in our calculations are largely independent of the parameter α and could be tested by further experiments in Belle II.